US09002017B2
Key distribution within a digital cinema presentation facility (140) occurs according to a retrieval process (200, 300) that provides for automatic retrieval at a scheduled time. The process further includes redundant mechanisms to transfer the necessary keys, in different ways to enable theater personnel to obtain the required key in a variety of different ways.
US09002015B2
A system and method for configuring a component carrier is presented. A component carrier assignment message is received. The component carrier assignment message may be configured to identify the component carrier and include at least one of, at least one of a downlink carrier frequency, a carrier frequency of a paired uplink carrier, a bandwidth of the component carrier, and a bandwidth of the paired uplink carrier, an indication of whether the component carrier is a control channel monitoring component carrier configured to signal data channel assignment information for the component carrier, and a logical index of the component carrier. The component carrier assignment message may then be used to configure the component carrier on a user equipment (UE).
US09002011B2
The present invention discloses a method for generating a consistent cryptographic key based on wireless channel features. First of all, channel estimated values ĥa, ĥb and channel estimate mean square error MSE are obtained through channel estimate, and then quantized channel eigenvectors {tilde over (h)}a and {tilde over (h)}b are obtained through quantization coding; next, inconsistency between {tilde over (h)}b and {tilde over (h)}a is equivalent to obtaining {tilde over (h)}b at end B through virtual channel noise adding the channel eigenvector {tilde over (h)}a sent by end A, and Signal-to-Noise ratio SNR Γ of the virtual channel is determined; a proper coding mode ENC is determined according to the virtual channel SNR Γ; both communication parties perform corresponding coding and decoding according to ENC and thereby obtain an estimated value {tilde over (ĥ)}a of {tilde over (h)}a; finally, a cryptographic key generating function is applied to {tilde over (h)}a and {tilde over (ĥ)}a, whereby a cryptographic key Kc is obtained. The present invention increases the validity of consistent dynamic cryptographic key generating and achieves information security and privacy at the physical layer.
US09002010B2
Secure communication of information over a wireless link with apparatus including a blade management module and a plurality of blade servers, the blade servers connected for data communications with the blade management module through at least one wired link, the blade servers also connected for data communications with the blade management module through at least one wireless link, including sharing an encryption key between the blade management module and one or more of the blade servers only through the at least one wired link connecting the blade management module to the one or more blade servers; encrypting information by the blade management module with the encryption key; transmitting the encrypted information by the blade management module to the one or more blade servers through the at least one wireless link; and decrypting the encrypted information by the blade server with the encryption key.
US09002009B2
Techniques and tools for quantum key distribution (“QKD”) between a quantum communication (“QC”) card, base station and trusted authority are described herein. In example implementations, a QC card contains a miniaturized QC transmitter and couples with a base station. The base station provides a network connection with the trusted authority and can also provide electric power to the QC card. When coupled to the base station, after authentication by the trusted authority, the QC card acquires keys through QKD with a trusted authority. The keys can be used to set up secure communication, for authentication, for access control, or for other purposes. The QC card can be implemented as part of a smart phone or other mobile computing device, or the QC card can be used as a fillgun for distribution of the keys.
US09002005B2
A number of encryption system types utilized by subscriber terminal devices currently requesting tuning to a particular switched digital video (SDV) content selection is determined in response to each change in a number of the subscriber terminals requesting tuning to the particular SDV content selection. SDV content associated with the particular SDV content selection is encrypted as either encrypted SDV content or multiply partially encrypted SDV content based upon the determined number of encryption system types beginning from a current play location indicated for the SDV content selection within an electronic program guide (EPG). Either the encrypted SDV content or the multiply partially encrypted SDV content is distributed as part of an outgoing SDV content stream to the subscriber terminals currently requesting tuning to the particular SDV content selection.
US09001984B2
An apparatus and method that enables monitoring of social behaviors and generating advance warnings for different monitoring agencies according to the monitoring criteria set by each monitoring agencies. The remote supervision server receives social behavior information from different sources and also different monitoring criteria from different requesting agencies. Each social behavior is assigned different weights according to the monitoring criteria. A total score is calculated based on the monitoring criteria and an advance warning is sent to a requesting agency if the total score exceeds a threshold value.
US09001982B2
Systems, methods and apparatus are presented for facilitating account-based transactions. In an embodiment, the method includes associating a first person with an account, associating a second person with the account, receiving a request from a third party to authorize a transaction between the second person and the third party, determining a first communication address of the first party, and contacting the first party. The process also includes determining that the first person desires to communicate with the second person, determining a second communication address of the second person, initiating a communication between the first person and the second person, and receiving a signal from the first person that authorizes the transaction or declines the transaction.
US09001968B2
A method is provided for characterizing spectrometric properties (e.g., peak reflectivity, reflection curve width, and Bragg angle offset) of the Kα emission line reflected narrowly off angle of the direct reflection of a bent crystal and in particular of a spherically bent quartz 200 crystal by analyzing the off-angle x-ray emission from a stronger emission line reflected at angles far from normal incidence. The bent quartz crystal can therefore accurately image argon Kα x-rays at near-normal incidence (Bragg angle of approximately 81 degrees). The method is useful for in-situ calibration of instruments employing the crystal as a grating by first operating the crystal as a high throughput focusing monochromator on the Rowland circle at angles far from normal incidence (Bragg angle approximately 68 degrees) to make a reflection curve with the He-like x-rays such as the He-α emission line observed from a laser-excited plasma.
US09001964B2
A computed tomography system, capable of tomosynthesis, includes an inner circular gantry and an outer gantry within a housing assembly. A plurality of spaced apart radiology imaging plates are located along the inner gantry and adapted as x-ray detectors. An x-ray source is secured to the outer gantry and adapted to shoot x-rays between the spaced apart detectors and onto the patient or object while being rotated along the gantry and relative to the patient. A radiography device is moveably coupled to the inner gantry and adapted to scan and read the radiology plates and provide the data to an image processing computer. The x-ray source coupled to the outer gantry moves relative to the imaging plates such that a large number of projections can be exposed and thereafter scanned by the integral radiology device.
US09001957B2
Electrochemical corrosion potential (ECP) probe assemblies may be used to monitor ECP of materials due to coolant chemistry in an operating nuclear reactor. Example embodiment assemblies include at least one ECP probe that detects ECP of potentially several different materials, a structural body providing a fluid flow path for the coolant over the ECP probes, and a signal transmitter that transmits or carries ECP data to an external receiver. The ECP probes may be of any number and/or type, so as to detect ECP for different component materials, including stainless steel, a zirconium alloys, etc. The ECP probes may further detect ECP due to ion concentration, pH, etc. The ECP data may be transmitted through wired or wireless signal transmitters. Example methods include installing and using example embodiment ECP probe assemblies in nuclear reactors and facilities.
US09001953B2
A phase interpolation circuit includes: a first circuit configured to generate a first intermediate signal by weighting first reference signals having different phases with a first ratio and combining weighed first reference signals; a second circuit configured to generate a second intermediate signal by weighing second reference signals having phases different from the phases of the first reference signals by a certain value with a second ratio equal to the first ratio and combining weighted second reference signals; and a third circuit configured to generate an output signal by combining the first intermediate signal and the second intermediate signal.
US09001947B2
A receiver includes a first receiver chain configured to receive a first input signal and a second receiver chain configured to receive a second input signal. A first phase predistorter is provided in the first receiver chain and is configured to shift a phase of the first input signal by a first phase shift φ′A(f). A combiner is coupled to the first receiver chain and the second receiver chain and combines the first and second input signals. The first phase shift is selected to cause undesired signal components received in the first and second input signals to combine destructively.
US09001936B2
Effective management of a Hybrid-Automatic Repeat reQuest (HARQ) buffer in a wireless communication system is provided. A receiving terminal includes a first memory for storing Log Likelihood Ratio (LLR) values of at least one data block comprised in a received HARQ burst in a first memory, a channel decoder for decoding the at least one data block by using the LLR values, an error detection unit for detecting whether there are errors in the decoded at least one data block, and a second memory for storing at least one error-free data block in a decoded state among the data blocks in a second memory.
US09001930B2
Signal (SIF) field capacity can be significantly increased by encoding SIG field data using two streams in accordance with a space-time block code (STBC) encoding scheme. Dual-stream SIG field encoding allows for the utilization of higher order modulation schemes, such as quadrature phase-shift keying (QPSK), which increases SIG field capacity. Dual-stream encoded SIG fields are transmitted using an omnidirectional beam to allow mobile stations to accurately decode the SIG field irrespective of their spatial location.
US09001929B2
A method and an apparatus for a transmitter to transmit data in a wireless communication system are provided. This method includes: generating a first signal field including at least one symbol; generating a second signal field configured by repeating at least one symbol of the first signal field; and transmitting a frame including the first signal field, the second signal field, and a data field and a first symbol of the second signal field is modulated through binary phase shift keying (BPSK) and symbols from a second symbol of the second signal field are modulated through Q-BPSK. According to the present invention, a service filed can be extended while maintaining compatibility with a wireless communication system in the related art by transmitting a frame using symbol repetition.
US09001922B2
A power transmitter 50 is usable in a wireless power transmission system for transmitting power wirelessly. The power transmitter 50 includes a power transmitting section 51 for transmitting power; a communication section 52 for communicating information, for controlling the transmission of the power, with the power receiver 60; and a control section 53 for controlling the power transmitting section 51 such that the power to be sent out by the power transmitting section 51 is higher while the communication section 52 is performing the communication.
US09001921B1
Circuits, architectures, methods, algorithms, software, and systems for increasing reliability of data communications using time diversity coding are disclosed. An association circuit is configured to associate a first reliability factor with a first copy of the communicated data and a second reliability factor with a second copy of the communicated data, wherein the first reliability factor is different from the second reliability factor and has a value that is a predetermined function of a known characteristic of the data communications channel at a time that the communicated data passed through the channel. A decoder is configured to recover a reliable value for the communicated data from the first copy, second copy, first reliability factor, and second reliability factor.
US09001920B2
A system that incorporates the subject disclosure may include, for example, determining channel gains for a group of transmitters based on transmitted training symbols; and performing analog time domain cancellation and digital time domain cancellation responsive to a determination that a total interference does not satisfy a threshold range of the analog-to-digital converter, where the total interference is determined based on the channel gains. Other embodiments are disclosed.
US09001909B2
A receiving station receives an orthogonal frequency division multiplexing (OFDM) symbol via a shared medium, the OFDM symbol comprising a first set of frequency components modulated with preamble information and a second set of frequency components modulated with information. The receiving station processes sampled values of the received OFDM symbol based on channel characteristics estimated from the first set of frequency components to decode information encoded on a first subset of the second set of frequency components. The receiving station processes sampled values from the first symbol based on channel characteristics estimated from the first set of frequency components and the first subset of the second set of frequency components to decode information encoded on a second subset of the second set of frequency components.
US09001899B2
A video information processing system including a processing circuit and a deblocking filter. The processing circuit provides video information including a chroma component and a luma component. The deblocking filter has an input receiving the video information and an output providing filtered video information, and is configured to selectively disable chroma deblock filtering while luma deblock filtering is enabled. The processing circuit may include a video encoder or a video decoder. The processing circuit may further include control logic providing a control signal to disable chroma deblock filtering within either or both the encoder and decoder. The video encoder may incorporate control information in the output bitstream to control deblock filtering in the downstream decoder to maintain consistency between the encoder and the decoder.
US09001886B2
A method is provided in certain example embodiments and may include evaluating a first video stream being encoded by a first encoding element, where the first video stream is provided at a first bit rate. The method may also include evaluating a second video stream being encoded by a second encoding element, where the second video stream is provided at a second bit rate. The method may further include providing an output that is reflective of a time synchronization and a frame alignment for a plurality of frames within the first video stream and the second video stream.
US09001880B2
Disclosed are devices and methods for identification and cancellation of interfering signals, especially far-end crosstalk (FEXT), in a communication system with at least two pairs of wires of a balanced line bundle. The devices include at least a cancellation circuit, which is connected downstream to dead time elements, an interference characteristic detection device and a cancellation control unit, which controls a setting of filter coefficients of an adaptive filter and the cancellation signal source. The adaptive filter is configured as a digital cancellation filter having filter coefficients separated in time by a first delay element having the delay time T, and having an adjustable additional delay time t, whereby the setting of the additional delay time τ takes place together with the setting of filter coefficients.
US09001879B2
Some demonstrative embodiments include devices, systems and/or methods of beam selection for beamformed communication. For example, an apparatus may include a controller to control a plurality of antenna subarrays to form a plurality of directional beams for communicating a beamformed diversity wireless transmission over a plurality of selected directional links, which are selected based on at least one predefined selection metric.
US09001875B1
The disclosure can provide methods and systems for autocalibrating a transceiver. The method can include upconverting a bandpass input signal by mixing the bandpass input signal with a first local oscillator signal to form an initial transmitter signal. The initial transmitter signal can be looped back to a receiver and downconverted with a second local oscillator signal having a frequency that is different from the first local oscillator to form an intermediate frequency signal. At least one of a gain and a phase of the transmitter can be adjusted based on a transmitter image sideband of the intermediate frequency signal to generate a calibrated transmitter signal having minimized transmitter image sideband.
US09001868B2
Systems and methods for enhancing numerically controlled oscillators are provided. In certain embodiments, a numerically controlled oscillator enhancer includes a desired rate interface configured to receive a desired numerically controlled oscillator rate from an external device and a closest quantized rate identifier configured to identify a closest quantization rate that is closest to the desired numerically controlled oscillator rate. Further, the numerically controlled oscillator enhancer includes a quantization rate corrector configured to identify the quantization rate correction that, when applied to the closest quantization rate, constrains an accumulated quantization error within an error range and a rate output configured to output a corrected quantized numerically controlled oscillator rate.
US09001864B2
An apparatus and method for signal emitters determining and using a reduced number of discrete frequency transmitters based on frequency segmentation and degradation analysis of a candidate filter configuration compared to an original waveform input signal for acceptability determination in view of desired system parameters. A method that configures a device to produce a complex waveform over a desired range of frequencies is provided. Configuring a device can include filtering to reduce a number of frequencies which in turn is used to reduce signal emitters and configuring resulting reduced signal emitters includes producing a desired complex waveform over a desired range of frequencies.
US09001861B2
A device for producing a coherent bi-color light source, including: an array substrate, a first laser tube driven by a first direct current signal, a second laser tube driven by a modulation signal coupled by a microwave signal and a second DC signal, a half wave plate, a birefringent crystal, a first quarter wave plate, a partially reflecting plane mirror, and a second quarter wave plate. The first laser tube and the second laser tube are fixed on the array substrate. The half wave plate, the birefringent crystal, the first quarter wave plate, the partially reflecting plane mirror, and the second quarter wave plate are disposed in sequence in an emission direction of a laser beam emitted by the first laser tube. The second laser tube is disposed opposite to the birefringent crystal.
US09001860B2
A laser diode device includes a laminated structure in which a first compound semiconductor layer, a third compound semiconductor layer that has a light emitting region and a saturable absorption region, and a second compound semiconductor layer are sequentially layered, a second electrode, and a first electrode. The laminated structure has ridge stripe structure. The second electrode is separated into a first section to obtain forward bias state by applying a direct current to the first electrode through the light emitting region and a second section to add electric field to the saturable absorption region by an isolation trench. When minimum width of the ridge stripe structure is WMIN, and width of the ridge stripe structure of the second section of the second electrode in an interface between the second section of the second electrode and the isolation trench is W2, 1
US09001859B2
The ridge semiconductor laser is a semiconductor laser in which a carrier stopper layer made of an AlInAs compound, a clad layer made of an AlGaInAs compound, and an etching stopper layer made of an InGaAsP compound are stacked in sequence on one side of an active layer made of an AlGaInAs compound. The ridge semiconductor laser is provided with a ridge waveguide including, in a layer made of an InP compound, a diffraction grating made of an InGaAsP compound on the opposite side of the clad layer of the etching stopper layer.
US09001852B1
The wavelength tunable laser includes a thermo-electric cooler (TEC), a distributed feedback portion, and a semiconductor optical amplifier (SOA). The distributed feedback portion is disposed on the thermo-electric cooler and has a plurality of distributed feedback (DFB) lasers connected in series. Each DFB laser is configured to output an optical signal within a different temperature dependent tunable range of wavelengths. Therefore, the distributed feedback portion outputs an optical signal from one of the DFB lasers. The SOA is optically connected to the distributed feedback portion. The SOA amplifies and modulates the optical signal outputted from the distributed feedback portion.
US09001842B2
A communications parallel bus receiver interface having N data lines and method of operation. The parallel bus interface employs receiver redundancy at the bus level such that there are N+1 receiver devices. An input switching network is configured to receive and couple N parallel data signals along respective paths to corresponding parallel-configured bit receiver devices, and adapted to couple one received data signal to two adjacent bit receivers. A calibration device calibrates one of the two adjacent bit receivers, and a qualification device qualifies data decisions made during calibration processes performed by the calibration device. The method cycles through each of N+1 receivers to periodically recalibrate each receiver (one at a time) while N inputs are processed continuously and uninterrupted. The interface is configured such that another receiver is receiving the same data as the receiver that is being calibrated, and the qualifications for receiver calibration can be made with minimal circuit overhead.
US09001834B2
Communication transmission methods and systems are provided. Firstly, a base station broadcasts a message to a user equipment, wherein the message includes a priority threshold value. Then, the user equipment compares a priority value of the user equipment with the priority threshold value. Then, an initiation of an access procedure of the user equipment is disabled when the priority value of the user equipment is below the priority threshold value.
US09001833B2
A relay apparatus in a communication system including a transmission apparatus, a reception apparatus, and a plurality of relay apparatuses which include the relay apparatus, including: a receiver receiving distributed sequential packets from the transmission apparatus which distributes sequential packets for the reception apparatus among the plurality of relay apparatuses, a memory storing distributed sequential packets of the sequential packets in sequential order, the distributed sequential packets are distributed and transmitted to the relay apparatus by the transmission apparatus, and a processor selecting a discard packet from the distributed sequential packets based on a discard condition, and to add a discard information to a previous packet and to transmit the previous packet, the discard information indicates a sequence number of the discard packet to be discarded, and the previous packet is one of the distributed sequential packets before the discard packet in sequential order.
US09001825B2
Physical links between an access switch and a pair aggregation switches are aggregated into a virtual link aggregation group (vLAG). Each aggregation switch is a local switch to itself and a remote switch to the other aggregation switch. Each aggregation switch maintains a state machine including initialization, local-up, remote-up, and formed states. In the initialization state, the physical link between the access switch and each aggregation switch is down, and the vLAG is down. In the local-up state, just the physical link between the access switch and the local switch is up, and the vLAG is down. In the remote-up state, just the physical link between the access switch and the remote switch is up, and the vLAG is down. In the formed state, the physical link between the access switch and each aggregation switch is up, and the vLAG is up.
US09001822B2
Aspects of a method and system for utilizing a 10/100/1G/10GBase-T PHY device for single channel and shared channel networks are provided. In this regard, at least one switching element may be utilized to configure an Ethernet over twisted pair PHY device for communication over a single and/or shared channel. The switching element may enable switching between a transmitter being coupled to a shared channel and a receiver being coupled to a shared channel. Additionally, the switching elements may be based on whether the transmitter is connected to a standard 10/100/1G/10GBase-T network, or to a single and/or shared channel network, for example. In this manner, the configured PHY device may remain compatible with existing Ethernet networks. The PHY device may be configured externally and/or internally. The polarity of transmitted and/or received data may be configured based on a polarity of data received from a shared channel.
US09001817B2
A method of operating a communication system comprises sending a frame by an access node to a wireless device where the frame comprises a packet. A counter is initialized and a timer for each frame is initiated. The method continues with the access node determining if a response associated with the packet is received before the expiration of the timer. If the response is received prior to the expiration of the timer, the counter and the timer are reset. If a response is not received prior to the expiration of the timer, the counter is incremented. Upon the counter meeting a criteria of a certain quantity of lost packets, the access node performs a synchronization process.
US09001816B2
A communication terminal for Internet telephony is provided that handles and control communication of data in accordance with a standardized network protocol and exchanges data with a connecting unit connected to the Internet where the resulting data exchanged between the terminal and a connecting unit consist of packets in a standardized protocol data packet format embedded in a wireless format. This provides a communications terminal which uses a network or the Internet for the transfer of digitized speech, etc., thereby achieving great economic savings. Also, the flexibility is increased with respect to wireless communication with the network or the Internet without any need for specialized equipment and functionality.
US09001813B2
A system includes radio devices where radio links between the devices are configured by bringing the radio devices in close proximity for a few seconds. A proximity detector of a radio device detects the proximity of another radio device and an automatic registration process begins to configure a link between the devices. One-to-one or one-to-many links may be established. Links may be cancelled by repeating the process. The devices may include an indicator to indicate establishment of the link.
US09001801B2
Methods and systems for controlling a personal area network access device are disclosed herein. Aspects of the method may comprise receiving an application event associated with a particular application running on a complex Bluetooth® device that is running a plurality of simultaneous applications, and determining whether a low power mode is allowed by the particular application running on the complex Bluetooth® device. If the low power mode is allowed by the particular application running on the complex Bluetooth® device, the complex Bluetooth® device running the particular application may be configured to operate utilizing the allowed low power mode. The allowed low power mode may be switched by the complex Bluetooth® device based on the application event. An active mode may be switched from a current mode prior to switching to the allowed power mode based on the application event.
US09001792B2
Generally described, the disclosed subject matter is directed to improving the reception of data in wireless communication environments. In accordance with one embodiment, a method is provided for improving the reception of meter data in an AMR system. In particular, the method includes obtaining a sample of data indicative of channel quality for each transmission channel in the operational frequency band of the endpoint device. Then, the data is analyzed and a determination is made as to whether the reception of data by the collection system can be improved. If the reception of data by the collection system can be improved, a command is generated for reprogramming the endpoint device. In one embodiment, the command includes channel reprogramming data for reprogramming the endpoint device.
US09001782B2
Systems and methodologies are described that facilitate multiplexing communications from multiple downstream access points to one or more upstream access points. In particular, a concentrator component is provided that can establish a single transport layer connection with an upstream access point along with multiple application layer connections over the single transport layer connection for each of multiple downstream access points and/or related mobile devices. The downstream access points and/or mobile devices can provide identifiers to the concentrator component, which can utilize the identifiers to track communications with the upstream access points. In this regard, the upstream access points can additionally include identifiers received from the concentrator component in subsequent communications to facilitate identifying the appropriate downstream access point and/or mobile device.
US09001781B2
A system is proposed to provide handover in a mobile telecommunications environment, particularly applicable to 3GPP networks, which does not increase signalling overhead but minimizes user data loss during handover. In the modified system, PDCP SDUs with Sequence numbers are buffered and retransmitted as necessary. At the time of handover, SDUs not received by the user device are forwarded to the target base station for forward transmission to the UE. The handover procedure is designed to minimize packet loss whilst keeping to a minimum the duplication of packet transmission over the air interface.
US09001769B1
It is determined that a first channel loading of a first access node channel meets a loading threshold. Wireless devices in active communication over the first access node channel are identified, the wireless devices comprising an application running on each wireless device, each application comprising an application requirement which meets an application requirement criteria. The identified wireless devices are ranked into a first order based on a modulation and coding scheme assigned to each wireless device, and are further ranked in a second order within the first order based on an indication of an amount of data pending transmission from each wireless device when two or more wireless devices are assigned the same modulation and coding scheme. Each identified wireless device is instructed to operate on a second access node channel according to the second order, until the first channel loading does not meet the loading threshold.
US09001768B2
The present invention relates to a wireless communication system supporting carrier aggregation (CA). The present invention provides a method for allowing a terminal to transmit control information to a base station in a wireless communication system, and the method comprises receiving from said base station at least one physical downlink control channel (PDCCH) and one physical downlink shared channel (PDSCH) through at least one serving cell that is configured in said terminal; and transmitting to said base station first control information which has bundled at least a portion of the control information for said PDCCH reception or the PDSCH reception that is indicated by said PDCCHs, wherein said first control information is transmitted using a physical uplink control channel (PUCCH) resource corresponding to a second control information, and said second control information can be related to a PDCCH which was last detected by said terminal among said received PDCCHs.
US09001767B1
Systems, methods, and software for providing a wireless local area network to user devices using a wireless access node are provided herein. In one example, a method of operating a wireless access node is provided. The method includes providing a wireless local area network for user devices, selecting a first wireless backhaul link for communications of the wireless local area network from among a plurality of wireless links provided by a plurality of wireless access nodes based on at least signal strengths of the wireless links, and selecting a second wireless backhaul link as a backup for the first wireless backhaul link from among the plurality of wireless links based on at least the signal strengths and uptime information of the wireless links.
US09001765B2
A method, a base station and a user equipment for transmitting physical resource blocks and estimating channels are provided. The method includes: scheduling, by a base station, M PRBs for the user equipment, and configuring reference signal patterns for the M PRBs as following: allocating (X−1)M+1 demodulation reference signal subcarriers for M PRBs in a frequency domain, configuring only one demodulation reference signal subcarrier within a range of (−N, N] subcarriers in a border of every two PRBs, where locations of the rest (X−2)M+2 demodulation reference signal subcarriers keep consistent with locations of demodulation reference signal subcarriers in M contiguous first demodulation reference signal patterns in a frequency domain; and transmitting the configured M PRBs to the user equipment, so that the user equipment performs joint channel estimation according to the configured M PRBs. This saves reference signal overheads and optimizes data transmission rate.
US09001763B2
Embodiments of the present invention disclose a wireless service access method and apparatus. In the method, a group policy of a wireless access point AP and a group priority of a virtual access point VAP are configured, an access priority of a service access request of a user is determined according to the group policy of the AP and the group priority of the VAP, and a service access operation is executed according to the access priority. In the embodiments of the present invention, a differential QoS guarantee based on a user priority is provided, and QOS of a high priority user and a high priority service in a situation that wireless resources are constrained or environment is severe can be ensured.
US09001760B2
A method, an apparatus, and a computer program product for wireless communication are provided. The apparatus receives a resource assignment from a serving base station for a device-to-device (D2D) link with a transmitter, attempts to receive a data packet from the transmitter based on the resource assignment, sends an acknowledgment (ACK) only to the serving base station when reception of the data packet succeeds, and sends a negative acknowledgment (NACK) only to the transmitter when the reception of the data packet fails. In an aspect, the apparatus receives a resource assignment from a serving base station for a D2D link with a receiver, sends a data packet to the receiver based on the resource assignment, and assumes the data packet is successfully received at the receiver unless a NACK is received from the receiver, wherein the NACK indicates a failed reception of the data packet at the receiver.
US09001758B2
Methods, systems, and devices for utilizing flexible bandwidth carriers for small cells are provided. Bandwidth scaling factor(s) for a small cell may be determined. A flexible bandwidth carrier may be generated for the small cell utilizing the bandwidth scaling factor. Some embodiments provide assistance with active hand-in due to more available PN offsets in the flexible bandwidth domain. Some embodiments enhance small cell discovery with high bandwidth scaling factor beacon-like small cells with little more power than that corresponding to the same power spectral density for normal bandwidth small cell. Some embodiments reduce the interference caused by small cell to macrocell users using an adaptive bandwidth scaling factor for small cells based on number of users supported and their traffic demand, to control the extent of overlap the macrocell has with small cell and the interference to macrocell mobiles. Some embodiments utilize self-configuration for small cells utilizing flexible bandwidth channels.
US09001757B2
A communication apparatus to transmit a plurality of frames in a network, where each frame includes one or more symbols having a symbol length, includes a data processing unit. The data processing unit acquires an inter-frame space between two consecutive frames from the plurality of frames. The data processing unit further adjusts the inter-frame space between the two consecutive frames upon determination that the inter-frame space is not an integral multiple of the symbol length. The communication apparatus also includes a transmitter unit to transmit the adjusted consecutive frames.
US09001752B2
A base station including at least one circuit configured to: receive a signal from a communication terminal via an array antenna; calculate a weight to be applied to the array antenna with respect to the communication terminal, based on a known signal supplied from the communication terminal and received by the circuit; transmit a signal to the communication terminal via the array antenna; determine m (m>1) communication terminals among the plurality of communication terminals, based on a first communication quality between base stations and a plurality of communication terminals, as communication-object candidates; cause to transmit control information, which is configured to cause the communication terminal to transmit the known signal, to the m communication terminals. Thus, the circuit may determine, as communication objects, l (1≦l
US09001739B2
The disclosure claims an Evolved Universal Mobile Telecommunication System (UMTS) Radio Access Network (E-UTRAN) system and a task tracking method thereof. The method comprises the steps of: creating a message, which carries the parameters of multiple tasks for tracking a same user; sending the message to an Evolved NodeB (eNodeB), which is used for the eNodeB to create multiple tasks to track the user according to the parameters. The disclosure also claims an E-UTRAN system, which comprises: a creation module, configured to create a message which carries the parameters of multiple tasks for tracking a same user; a sending module, configured to send the message to the eNodeB; an eNodeB, configured to establish multiple tasks to track the user according to the parameters. The disclosure can guarantee that multiple tasks track one appointed user synchronously.
US09001728B2
Various systems and methods are provided for transmission of related data components across independent streams. In one embodiment, among others, a transmitting device may separate transmission data into related data components and transmit each related data component in an associated transport stream. Each related data component includes a synchronization tag associated with synchronization of the related data component within the transmission data. In another embodiment, a receiving device may receive related data components transmitted in separate transport streams and decode the related data components based at least in part upon a synchronization tag included in each related data component. In another embodiment, among others, a method for includes receiving data components transmitted on a plurality of transport streams, separating related data components from unrelated data components in the transport streams based at least in part upon a synchronization tag of each related data component; and decoding the related data components.
US09001720B2
A particular method includes receiving a power save polling frame from a station at an access point. The method also includes, in response to receiving the power save polling frame, transmitting a frame from the access point to the station indicating whether traffic associated with the station is buffered at the access point. Another particular method includes transmitting a frame from the station to the access point indicating that the station is to enter the power save mode and refraining from entering the power save mode until receipt of an end of data frame. Yet another particular method includes receiving a fetch trigger frame at an access point and refraining from transmitting one or more fetched data frames from the access point until a fetch time has elapsed or a delivery trigger frame is received. The access point is configured to communicate with other stations during the fetch time.
US09001717B2
A method of transmitting a signal from a base station to a user equipment in a multi-node system is disclosed. The method comprises the steps of allocating a resource of a certain zone to each of nodes in accordance with a radio resource multiplexing scheme; and transmitting the signal to the user equipment by using a resource zone allocated to the node.
US09001716B2
A terminal, a Base Station (BS) and a method for detecting a cause of a Radio Link Failure (RLF) or handover failure are provided. The method includes determining whether an RLF or a handover failure occurs, performing a process of a connection re-establishment or connection establishment to enter a connection mode after encountering the RLF or the handover failure, and transmitting an RLF information report to a BS after entering the connection mode.
US09001714B2
An Ethernet physical layer device using time division duplex. A time division duplex frame can be defined with uplink and downlink transmission periods. These defined uplink and downlink transmission periods can be adjusted based on bandwidth and latency considerations on the network link.
US09001697B2
A method of replacing a first router with a second router within a network may comprise placing the second router in client mode within the network such that the second router is not configured to route network traffic and is configured to search for a network access point provided by the first router. A protocol may then be invoked on the first and second routers, the protocol being configured to enable an exchange of the network name and password information from the first router to the second router in client mode. The second router, in client mode, may be configured according to the obtained network name and password information. The second router may then be switched from client mode back to router mode and enabled to route network traffic on the network. The first router may then be replaced with the second router.
US09001696B2
An approach is provided in which a local module receives a discovery message from a virtual network endpoint that is devoid of a corresponding virtual IP address. The local module sends one or more unicast network configuration messages to a dynamic configuration service and, in turn, the local module receives one or more unicast network configuration responses from the dynamic configuration service. One of the unicast network configuration responses includes one or more network configuration parameters. The local module configures the virtual network endpoint according to one or more of the network configuration parameters.
US09001692B2
A route calculation apparatus calculates an intra-domain route in a target domain assigned with the route calculation apparatus. The intra-domain route is a part of a route for a target path in a network divided into plural domains. Each of the plural domains includes at least one node device. The target path passes through transit domains out of the plural domains from a source node device included in a source domain to a destination node device included in a destination domain. The route calculation apparatus includes a calculator and a route calculation requester. The calculator calculates the intra-domain route in the target domain. The route calculation requester requests a first route calculation apparatus assigned to the destination domain to calculate an intra-domain route in the destination domain when the target domain is one of the plural domains except the destination domain and except domains adjacent to the destination domain.
US09001682B2
Methods for steering the access technology selection by a mobile device in an overlay Small-Cell and Macro Network, such as UMTS, LTE, CDMA, or WIFI are disclosed. This selection determination is based on the observed, real-time correlated and estimated network congestion, content-awareness, application/service expectations, and other criteria. Methods and procedures to influence network selection or control currently selected networks by propagating real-time correlated and consolidated information on a plurality of Radio Access Technologies to Access Points, or modifying the list of alternative Radio Access Technologies available at a location using standards defined mechanisms and parameters are identified. Additionally, steering content access and delivery through alternative access technologies, based on anticipated network usage by user's service activation, and the knowledge of the type, state and resource usage of a plurality of access networks when a mobile device connects to multiple access technologies through in-band or out-of-band mechanisms is identified.
US09001673B2
Systems and methods for generating and accessing a communications inventory are provided. To generate the inventory in one embodiment, a plurality of outgoing communications is received. The outgoing communications may have been auto-generated or generated as part of a batch process. Next, a determination is made that a first outgoing communication of the plurality of outgoing communications is unique relative to other outgoing communications to avoid storing duplicate messages. Lastly, a user may access a display of the first outgoing communication.
US09001671B2
A device receives packets of an application flow, and inspects one or more of the packets of the application flow. The device determines, based on the inspection of the one or more packets, a service graph of feature peers for the packets of the application flow. The feature peers are associated with a network and the service graph includes an ordered set of the feature peers. The device creates a representation of the service graph. The representation includes an ordered set of feature elements that represent the feature peers of the service graph. The device provides the representation of the service graph to a controller device, and the controller device configures, based on the representation, the network with the service graph so that the packets of the application flow traverse the service graph.
US09001669B2
In one embodiment, in response to a trigger condition being detected at a particular location in a primary directed acyclic graph (DAG) in a computer network, a particular node in the primary DAG at the particular location may be determined to act as a remote stitched (RS)-DAG root for an RS-DAG at the particular location. The determined RS-DAG root may then be instructed to initiate the RS-DAG, the instructing indicating one or more properties for the RS-DAG that are based on the trigger condition and that are different from properties of the primary DAG. In another embodiment, a particular node receives instructions to initiate an RS-DAG as its RS-DAG root, initiates the RS-DAG, and relays messages of the RS-DAG with a primary root of the primary DAG.
US09001668B2
A method for testing a network and a test manager for a network test system are disclosed. The method for testing a network may including displaying (1) a graphical user interface including a graphical representation of endpoints available for selection as endpoints of traffic to be generated during a test session and (2) a tabular list describing selected endpoints. Source endpoints for the traffic may be selected and the selected source endpoints may be designated on the graphical representation of endpoints and described in the tabular list. Traffic from the selected source endpoints to the selected destination endpoints may be generated for transmission via the network.
US09001662B2
A control method includes: acquiring information that indicates a predicted position of a mobile terminal that requests data that is able to be received from a first communication device; identifying, based on the acquired information, a second communication device that is able to communicate with the mobile terminal located at the predicted position; and causing, by a processor, the second communication device to start receiving the data from the first communication device before the identified second communication device becomes able to communicate with the mobile terminal, and to transmit the received data to the mobile terminal after the second communication device becomes able to communicate with the mobile terminal.
US09001661B2
Methods and apparatuses are described for inspecting data packets in a computer network. One or more data packets through the network have associated header data and content. One method includes receiving a data packet, examining the data packet to classify the data packet including classifying the data packet using information included in the header and content, determining flow instructions for processing the packet based on both the header information and the content and processing of the packet using the flow instructions.
US09001657B2
A device may receive a packet, may identify a first packet characteristic associated with the packet, may identify a second packet characteristic associated with the packet, and may store information associated with the packet in a queue based on the first packet characteristic and the second packet characteristic. The device may service the packet from the queue based on an automatic repeat requester (“ARQ”) mechanism. The ARQ mechanism may specify a maximum quantity of times that the packet should be serviced before being dropped, when a packet acknowledgement is not received, may specify a time period between packet service attempts, and may be based on the first packet characteristic and the second packet characteristic.
US09001654B2
A method and apparatus for interrupting the lower priority packet transmission/reception for higher priority packer transmission reception within the context of a common RLC entity is provided herein. The transmission/reception of lower priority data blocks containing data segments of a first higher layer packet is interrupted to transmit/receive higher priority data blocks containing data segments of a second higher layer packet. After the transmission/reception of a final segment of the second higher layer packet, the transmission/reception of the first higher layer packet is resumed. In some embodiments, a final segment of the second higher layer packet is encapsulated in a final higher priority data block with a remaining data segment of the first higher layer packet. The final higher priority data block further includes a transition indicator to indicate a transition from the second higher layer packet back to the first higher layer packet.
US09001651B2
A computing device collects network topology information for a Multiprotocol Label Switching (MPLS) network that includes multiple data centers. The computing device receives, from a service layer operator, a request including a flow demand for services at a selected data center of the multiple data centers. Based on the collected network topology information, the computing device evaluates the flow demand for the selected data center to determine if the selected data center can support the flow demand and sends, to a network layer operator, a network soft-state to support the flow demand at the selected data center when it is determined that the selected data center can support the flow demand.
US09001647B2
Link identifiers such as VIDs, selected from a defined range of values, are locally assigned by each node on a link state protocol controlled Ethernet network to each of its links or adjacencies. The link identifiers are assigned by the nodes such that each link or adjacency at the node is uniquely identified by a different link identifier. A link state protocol adjacency notification mechanism or other flooding mechanism is used to disseminate the locally assigned link identifiers to other nodes on the link state protocol controlled Ethernet network. The link identifiers are added by the nodes to their topology databases to enable detour routes to be locally calculated by the nodes on the network in a distributed manner. Upon occurrence of a failure, the link identifiers are used to source route traffic around the failure so that traffic may continue to traverse the link state protocol controlled Ethernet network.
US09001639B2
An apparatus and method for Orthogonal Cover Code (OCC) generation, and OCC mapping, includes generating the first group of OCC sequences, which is used to generate the first group of OCC sequences; generating the second group of OCC sequences, which is used to mirror the columns of the first group of OCC sequences to generate the second group of OCC sequences; generating the third group of OCC sequences, which is used to perform cyclic shift on the column vectors of the first group of OCC sequences to generate the third group of OCC sequences; and generating the fourth group of OCC sequences, which is used to mirror the columns of the third group of OCC sequences to generate the fourth group of OCC sequences.
US09001637B2
A method for automatically detecting a packet mode in a wireless communication system supporting a multiple transmission mode includes: acquiring at least one of data rate information, packet length information and channel bandwidth information from a transmitted frame; and determining the packet mode on the basis of the phase rotation check result of a symbol transmitted after a signal field signal and at least one of the data rate information, the packet length information and the channel bandwidth information acquired from the transmitted frame.
US09001635B2
An optical element having compatibility among two or more wavelengths and having an excellent converging performance for light with each wavelength, and an optical head apparatus using the optical element are provided. An optical element according to the present disclosure has a first region including an optical axis and a second region formed around the outer circumference of the first region. The first region and the second region respectively have a first diffraction structure and a second diffraction structure each cyclically formed on an aspheric surface and having a step-like cross section. In the first region, the number of steps included between top portions of the first diffraction structure is different from the number of steps included between the optical axis and a top portion that is closest to the optical axis in the first diffraction structure.
US09001631B2
Aspects of the disclosure provide a signal processing circuit that has fast response time to sudden profile changes in an electrical signal. The signal processing circuit includes a processing path configured to process an electrical signal that is generated in response to reading data on a storage medium, and a feed-forward correction module. The feed-forward correction module is configured to detect a profile variation based the electrical signal in a time window, and correct the electrical signal in the time window based on the detected profile variation.
US09001629B1
Systems and methods for suppressing the background energy of a waveguide in an EAMR system are provided. One such system includes a near field transducer having a disk section and a pin section extending from the disk section to an air bearing surface of a slider, a waveguide having a core and a cladding, where the waveguide is configured to couple light energy to the near field transducer, where the cladding is configured to substantially surround the core, and a recess portion positioned between the core and the air bearing surface.
US09001622B2
A signal generator generates an electrical signal that is sent to an amplifier, which increases the power of the signal using power from a power source. The amplified signal is fed to a sender transducer to generate ultrasonic waves that can be focused and sent to a receiver. The receiver transducer converts the ultrasonic waves back into electrical energy and stores it in an energy storage device, such as a battery, or uses the electrical energy to power a device. In this way, a device can be remotely charged or powered without having to be tethered to an electrical outlet.
US09001616B2
A method for simulating the positioning of at least one acoustic linear antenna towed in a study zone is provided. The method includes at least one simulation step of at least one future position of at least one point of the acoustic linear antenna(e), at least one step for predicting the temporal and spatial variations of at least one marine current likely to interact with the acoustic linear antenna(e) and at least one step for determining the form of the acoustic linear antenna(e) by the resolution of a hydrodynamic model. The prediction step(s) include an upstream phase for determining a current at at least two determined points of the zone; a simulation phase of at least one future position of the determined points; a temporal projection phase of the current determined during the upstream phase at each future position; and a spatial projection phase of the currents at at least two distinct points of the acoustic linear antenna(e) occupying future position(s) of the simulation step.
US09001609B2
A method and apparatus for managing memory in an electronic system is described. The method includes determining a failure in an element of the memory array that is repairable by a redundant element. The method may further include using a latch to identify the redundant element. The method may also include that upon an event, using a value in the latch in an eFuse which subsequently selects the redundant element.
US09001605B2
Described herein are various principles for designing, manufacturing, and operating integrated circuits having functional components and one or more metal interconnect layers, where the dimensions of signal lines of the metal interconnect layers are larger than dimensions of the functional components. In some embodiments, a signal line may have a width greater than a width of a terminal of a functional component to which the signal line is connected. In some embodiments, two functional components formed in a same functional layer of the integrated circuit may be connected to metal signal lines in different metal interconnect layers. Further, the metal signal lines of the different metal interconnect layers may overlap some distance.
US09001598B2
A semiconductor device including an internal command generator and a bias generator is provided. The internal command generator generates first to fourth internal command signals sequentially enabled in synchronization with pulses of an external program signal. The first internal command signal controls a read operation for reading out data stored in memory cells, and the second and third internal command signals control a program operation for programming the memory cells. The bias generator generates a read bias signal for controlling a level of an output voltage signal, which is applied to an internal circuit, in response to the first and fourth internal command signals.
US09001594B2
Apparatuses and method for adjusting a path delay of a command path are disclosed. In an example apparatus, a command path configured to provide a command from an input to an output includes an adjustable delay. The adjustable delay is configured to add delay to the command path delay, wherein the delay of the adjustable delay is based at least in part on a phase relationship between a feedback signal responsive to the command propagating through the command path and a clock signal. An example method includes configuring a command path to add delay to a command path delay to provide an internal write command signal to perform a write operation on write data corresponding to the internal write command, and propagating the write data corresponding to the internal write command through a data path without further delaying the write data to match the command path delay.
US09001591B2
A semiconductor device including multiple subarrays arrayed in a matrix in the row and column directions, and respectively containing multiple memory cells, bit lines coupled to the memory cells, and precharge circuits (to charge the bit lines; column select signal lines extending in the column direction for selecting subarray columns; main word lines for selecting subarray rows; and precharge signal lines for supplying precharge signals to the precharge circuits; and at least two of the subarrays formed in the row direction or the column direction are controlled by the same logic according to the precharge signal.
US09001588B2
A sense amplifier circuit of a nonvolatile semiconductor memory device is provided. The sense amplifier circuit includes a reference voltage generator, a sensing voltage generator and a comparator. The sensing voltage generator outputs a sensing voltage to a sensing node depending on a current flowing through a data line. A load transistor supplying a current to the data line is directly connected to a clamping node. The load transistor is included in a current mirror circuit. In a read operation, a low voltage drive operation is performed and a sensing speed and power consumption are properly controlled.
US09001586B1
A semiconductor memory device according to an embodiment of the present invention may include a memory cell array having a plurality of memory cells, a pass transistor group having normal pass transistors coupled between global word lines and local word lines to which the plurality of memory cells are coupled, and an address decoder coupled to the global word lines and a block word line to which gates of the normal pass transistors are coupled in common, wherein the address decoder gradually increases a voltage, obtained by subtracting a voltage of the global word lines from a voltage of the block word line, when an erase voltage is provided to a channel of the plurality of memory cells.
US09001583B2
Two on-chip capacitors including one HV capacitor VPPcap and one LV VCC capacitor VCCcap are built over a NVSRAM memory chip as a back-up second power supplies for each NVSRAM cell, regardless of 1-poly, 2-poly, PMOS or NMOS flash cell structures therein. The on-chip HV and LV capacitors are preferably made from one or more MIM or MIP layers for achieving required capacitance. A simplified VCC power system circuit without a need of a State machine designed for performing only one NVSRAM Program operation without Erase operations is proposed for initiating NVSRAM's Auto-Store operation without using any off-chip Vbat and Vcap. During the Auto-Store operation, all HV pumps and oscillators associated with the two on-chip capacitors are shut off once VCC voltage drop is detected by a VCC detector to be below 80% of regular VDD level.
US09001580B1
A nonvolatile memory (“NVM”) bitcell includes a capacitor, an asymmetrically doped transistor, and a gated diode device. The capacitor, transistor, and gated diode device are each electrically coupled to different active regions and metal contacts. The three devices are coupled by a floating gate that traverses the three active regions. The gated diode device allows for erasure of an entire NVM memory more efficiently and using less substrate space than a similar device that uses a transistor. The asymmetric transistor, in conjunction with the capacitor, is used to both program and read the logical state of the floating gate. The capacitor and floating gate are capacitively coupled together, removing the need for a separate selection device to perform read and write operations.
US09001579B2
A semiconductor memory device configured to apply a temperature-compensated word line voltage to a word line during a data read operation includes a memory cell array including a plurality of word lines, a plurality of non-volatile memory cells connected to the word lines, and a word line voltage application unit configured to apply a temperature-compensated read voltage to a selected word line and to apply a temperature-compensated pass voltage to at least one unselected word line during a read operation.
US09001578B2
Apparatus and method for managing data in a memory, such as but not limited to a flash memory array. In accordance with some embodiments, a soft erasure is performed on a block of memory cells by toggling an erasure status value without otherwise affecting a written state of the cells in the block. The memory cells are subsequently overwritten with a set of data using a write polarity direction determined responsive to the toggled erasure status value.
US09001576B2
A method of operating a semiconductor memory device includes checking an erase-program cycling number, setting a target erase level to be maintained when the erase-program cycling number is less than a predetermined critical number, and setting the target erase level to be increased when the erase-program cycling number is greater than or equal to the predetermined critical number, and performing an erase operation so that threshold voltages of selected memory cells are less than the set target erase level.
US09001574B2
A spin logic device which includes an electron confinement layer confining an electron gas in a two-dimensional area (2DEG) subtended by a direction x and a direction y, the latter perpendicular to the former. The spin logic device is configured for the 2DEG to support a persistent spin helix (PSH) formed therein with a given spin component oscillating with periodicity λ along direction x but not oscillating along direction y. Majority logic circuit of the spin logic device includes: at least one input device energizable to create respective local spin-polarizations of the 2DEG in first regions of the confinement layer. The input device is configured to detect in a second region of the confinement layer an average spin-polarization of the 2DEG diffused through resulting PSHs, wherein a projection of a distance between the second region and first regions onto direction x is equal to nλ/a, n integer, a equal to 2 or 4.
US09001561B2
The present disclosure includes apparatuses and methods for performing forming processes on resistive memory. A number of embodiments include applying a formation signal to the storage element of a resistive memory cell, wherein the formation signal includes a first portion having a first polarity and a first amplitude, a second portion having a second polarity and a second amplitude, wherein the second polarity is opposite the first polarity and the second amplitude is smaller than the first amplitude, and a third portion having the first polarity and a third amplitude that is smaller than the first amplitude.
US09001558B2
A method for reading out a memory element comprises a series connection. of at least two memory cells A and B each have a stable state A0 or B0 having higher resistance and a stable state A1 or B1 having lower electrical resistance. An electrical variable of the series circuit is measured and an electrical variable is selected for this measurement, to which the memory cell A in state A0 makes a different contribution than the memory cell B in state B0 and/or to which the memory cell A instate A1 makes a different contribution than the memory cell B in state B1. The two state combinations A1 and B0 or A0 and B1 then result in differing values for the electrical variable that is measured by way of the series circuit. These state combinations can thus be distinguished from each other without having to change the logic state of the memory element during reading.
US09001555B2
The present invention discloses a small-grain three-dimensional memory (3D-MSG). Each of its memory cells comprises a thin-film diode with critical dimension no larger than 40 nm. The thin-film diode comprises at least a small-grain material, whose grain size G is substantially smaller than the diode size D. The small-grain material is preferably a nano-crystalline material or an amorphous material. The critical dimension f of the small-grain diode is smaller than the critical dimension F of the single-crystalline transistor.
US09001552B1
A circuit for programming a resistive switching device includes a resistive switching device characterized by a programmable resistance, the resistive switching device comprising a first terminal, a second terminal, and a resistive switching element, a first circuit configured to supply a programming voltage to the resistive switching device and to supply a predetermined current to flow in the resistive switching device, and a second circuit coupled to the first circuit and to the resistive switching device, wherein the second circuit is configured to terminate the supply of the programming voltage to the resistive switching device when the predetermined current flows in the resistive switching device.
US09001540B2
A power source apparatus includes: a first series circuit that has a first rectifier element, a first switching element, and a third rectifier element; a second series circuit that has a second rectifier element, a second switching element, and a fourth rectifier element; a reactor connected between a connecting point of the first rectifier element and the first switching element and a connecting point of the second rectifier element and the second switching element; and a current detection unit having a first resistor element. The first and second switching elements are controllable based on a first zero current detection signal in accordance with a first current detected in the current detection unit, and a desired direct current voltage is fed to a load circuit.
US09001539B2
The disclosed embodiments provide an AC/DC power converter that converts an AC input voltage into a DC output voltage. This AC/DC power converter includes an input rectifier stage which rectifies an AC input voltage into a first rectified voltage of a first constant polarity and a first amplitude. The AC/DC power converter also includes a switching resonant stage which is directly coupled to the output of the input rectifier stage. This switching resonant stage converts the rectified voltage into a second rectified voltage of a second constant polarity and a second amplitude. The AC/DC power converter additionally includes an output rectifier stage coupled to the output of the switching resonant stage, wherein the output rectifier stage rectifies the second rectified voltage into a DC voltage output.
US09001535B2
A control apparatus for a power quality device comprises: a power quality analysis module, for sampling a power supply network to obtain a power quality information, and performing an analysis and computing on the sampling, so as to output an instruction information; N tracking control modules, for receiving respectively the instruction information and tracking the instruction information, so as to output N PWM control signals having a same frequency and constant phase shift therebetween, where N is a positive integer and N≧2, thereby to control the power quality device; wherein the power quality analysis module and the N tracking control modules are operated based on a synchronized signal.
US09001532B2
In one embodiment, a synchronous rectifier controller is configured to initiate forming an off-time interval for a first period of time responsively to the controller forming a disable state of a switching signal wherein the control circuit maintains the switching signal in the disable state for at least the off-time interval. The controller is also configured to restart forming the off-time interval responsively to a voltage of a synchronous rectifier becoming a first value prior to expiration of the first period of time.
US09001529B2
The present invention employs system and method in for distinguishing between power capabilities of various external power sources and a system that can communicate the identified power capabilities to the secondary side of the wireless power transfer system. Once the secondary side of the wireless power transfer system receives the power capability information, it adjusts the current available for a payload in accordance with the information received on power source capabilities.
US09001525B2
An electronic device includes a first cover, a double sided pressure sensitive adhesive (PSA) tape, a battery, and a second cover. The second cover is attached to the first cover. The battery is arranged between the first cover and the second cover. The second cover defines a groove. A shape of the groove is substantially same as a shape of the PSA tape. The PSA tape covers the groove. Thereby the PSA tape and the groove cooperatively form an air flowing channel having an inlet and an outlet. The battery is fixed to the second cover by the PSA tape. An adhesive force of the PSA tape applied between the battery and the second cover is decreasable by flowing air with temperature greater than a preset value through the air flowing channel so as to enable the battery to detach from the second cover.
US09001522B2
Electronic devices may be provided with printed circuits to which integrated circuits and other electrical components may be mounted. A first printed circuit may have a first surface with an array of contact pads arranged in rows and columns. Each column of contact pads may have a series of contact pads separated by gaps. The contact pads in each column may be staggered with respect to the contact pads in adjacent columns such that each contact pad in a given column is horizontally adjacent to associated gaps in the adjacent columns. A component may be mounted to an opposing surface of the printed circuit such that it overlaps one of the gaps between the staggered contact pads. By mounting the component to portions of the first printed circuit that do not overlap the staggered contact pads, the risk of damaging the electrical component during solder reflow operations may be minimized.
US09001519B2
A protective circuit module and a battery pack having the same are disclosed. In one embodiment, the protective circuit module includes a printed circuit board, an electronic device mounted on a first surface of the printed circuit board, and a pattern part mounted on a second surface opposite to the first surface of the printed circuit board. The electronic device comprises an integrated circuit chip, and one or more electronic components electrically connected to the integrated circuit chip and at least one of the one or more electronic components is electrically connected to the pattern part.
US09001514B2
A storage enclosure includes a chassis, a plurality of drawers, and one or more power supplies. The plurality of drawers each include up to a predetermined number of storage devices. The plurality of drawers is individually extendable up to a predetermined distance through a front surface of the chassis. When each drawer of the plurality of drawers comprises the predetermined number of storage devices and is extended the predetermined distance through the front surface of the chassis, the center of mass of the storage enclosure is behind the front surface of the chassis.
US09001513B2
A semiconductor switch insulation protection device and a power supply assembly. Said semiconductor switch protection device comprises a semiconductor switch having a metal component, an insulation component, and a pin installed at a bottom plane of said insulation component, and an insulation protection cover having a body with a second hole and a side belt. A front surface of said metal component is installed on a back surface of said insulation component. A metal portion, with a first hole and having a first height, is extended above an upper plane of said insulation component. Said second hole and said side belt are extended toward a back surface of said body, respectively, to form a hole column having a second height and a sidewall having a third height. Said metal portion is disposed in a groove formed by said back surface of said body, hole column and sidewall.
US09001512B2
A heat spreader for a resistive element is provided, the heat spreader having a body portion that is arranged over a top surface of the resistive element and electrically insulated from the resistive element. The heat spreader also includes one or more leg portion that extends from the body portion and are associated with the heat sink in a thermally conductive relationship.
US09001506B2
Embodiments of the present invention disclose a battery ejection system for a portable computer. According to one embodiment, the system includes at least one foot pad formed on an underside of the portable computer and a battery unit configured to releasably attach to the portable computer. Furthermore, the foot pad is configured to release the battery unit from the portable computer.
US09001503B1
A cover panel made of sapphire is provided on a surface of an electronic apparatus. The cover panel includes a first surface and a second surface opposite to the first surface. An operation button is positioned in a hole provided in the cover panel. A case supports the second surface of the cover panel. The case supports and covers an edge of the hole of the second surface.
US09001488B2
A bonding system for a tank battery containing a flammable or combustible product being stored or conveyed, including a bonding conductor, an electrically conductive base member mounted on the tank, the electrically-conductive base member electrically connected to the bonding conductor and to ground installed within each tank and also including a flexible conductive medium with an upper end and a lower end and a plurality of fine electrically-conductive metal wires each having a proximal end and a terminal end, the proximal ends of which are intertwined with the flexible conductive medium to be in electrical connection with the electrical conductive medium, the upper end of the flexible conductive medium electrically connected with the electrically conductive base member and a plurality of static drains located proximate to the highest points of the tank battery and electrically bonded to said bonding conductor.
US09001485B2
An overvoltage protector includes a first discharging electrode, a second discharging electrode, and an overvoltage protection part provided between the first and second discharging electrodes. The overvoltage protecting part has an insulating property under a normal operation condition, and has a conductive property if an overvoltage is applied between the first and second discharging electrodes. The overvoltage protecting part is made of a mixture of resin having an insulation property, an inorganic compound having an insulating property, and metallic boride compound powder. The metallic boride compound powder has a high melting point therefore it is hardly melted. Under high temperatures causing the powder to melt, the powder is oxidized and loses conductivity, thus providing a high reliability.
US09001476B2
An apparatus for protecting a motor includes two or more motor overloads, within a motor overload enclosure, protecting two or more motors. Each motor overload includes one or more current sensors where each current sensor includes a magnetic core and each current sensor includes a conductor positioned within the magnetic core where the conductor providing power to a motor protected by the two or more motor overloads (“protected motor”). Each motor overload includes a motor trip module that stops current flow to the protected motor in response determining that a thermal state of the protected motor has reached a thermal limit. Determining that the protected motor has reached a thermal limit includes using a current signal from at least one current sensor of the one or more current sensors that senses current of the protected motor to determine a thermal state of the protected motor.
US09001473B1
The embodiments disclosed generally relate to a read head in a magnetic recording head. The read head utilizes a sensor structure having: a pinned magnetic structure recessed from a media facing surface; and a reader gap structure. The reader gap structure has a spacer layer recessed from the media facing surface and disposed on top of the pinned magnetic structure, a recessed first free layer partially recessed from the media facing surface and disposed on top of the barrier layer, a second free layer extending to the media facing surface an disposed on top of the barrier layer, and a cap layer extending to the media facing surface disposed atop the second free layer. The pinned magnetic structure, the spacer, and the first free layer have a common face which is on an angle relative to the media facing surface.
US09001468B2
A data storage device may have at least a slider constructed with at least one feature positioned on an air bearing region and separated from a data transducer. The at least one feature can be configured to provide a slider stiffness that decreases modulation while the at least one feature is floating above or in contact with a data storage media.
US09001466B2
According to one embodiment, a three-dimensional magnetic recording and reproducing apparatus includes a magnetic head and a magnetic storage medium. The magnetic head includes a spin-torque oscillator including a free layer, a non-magnetic layer and a fixed layer, magnetization of the free layer being rotatable, the non-magnetic layer being laminated on the free layer, the fixed layer being laminated on the non-magnetic layer, a magnetization direction of the fixed layer being fixed. The magnetic storage medium includes first magnetic layers formed of magnetic materials having different resonant frequencies, each of the first magnetic layers being formed of an in-plane magnetization film and having recording tracks.
US09001463B2
A magnetic head according to one embodiment includes a module, the module having both read and write transducers positioned towards a media facing side of the module, wherein the read and write transducers are selected from a group consisting of piggyback read-write transducers, merged read-write transducers, interleaved read and write transducers, and an array of write transducers flanked by servo read transducers; wherein the write transducers include write poles having media facing sides with negative, zero or near-zero recession from a plane extending along the media facing side of a substrate of the module; wherein the read transducers each have at least one shield, wherein a media facing side of the at least one shield is more recessed from the plane than the write poles.
US09001458B1
A hard disk drive (HDD) assembly includes a conventional HDD enclosed within a two-piece metal container, whereby a lid is hermetically sealed to a body by melted metal and wherein the container is filled with helium gas. For example, the container may be formed of tin-plated steel and the two pieces soldered together to form the hermetically sealed container, having an electrical feed-through sealed similarly.
US09001454B1
A disk drive is disclosed comprising a disk comprising tracks defined by servo sectors, a head, and control circuitry comprising a servo control system operable to actuate the head over the disk in response to the servo sectors. The servo control system is configured into a first state, and a position error signal (PES) representing a difference between a target location for the head and a measured location for the head is generated. An actuator control signal is generated in response to the PES, a feed-forward control signal is adapted in response to the servo sectors, and the actuator control signal is adjusted using the feed-forward control signal. The servo control system is configured from the first state to a second state, and a phase of the adaptation of the feed-forward control signal is adjusted based on the second state.
US09001453B1
A data storage device is disclosed comprising a disk, a head comprising a touchdown sensor, and a fly height actuator (FHA) configured to actuate the head vertically over the disk based on an FHA setting. The data storage device is configured into a read mode, and while in the read mode, the FHA setting is adjusted until the head contacts the disk and a touchdown read mode resistance of the touchdown sensor is measured. The data storage device is configured into a write mode and the FHA setting is adjusted so the head is not contacting the disk. While in the write mode, a non-touchdown write mode resistance of the touchdown sensor is measured, and a write touchdown FHA setting that will cause the head to contact the disk while in the write mode is estimated based on the touchdown read mode resistance and the non-touchdown write mode resistance.
US09001448B2
Disk drive pre-amplifier output stage circuitry is presented including a high pass input filter for removing DC offsets from differential read data signals and providing an input to AB drivers of the output stage, in which an offset test circuit selectively drives the high pass filter output nodes according to the offset at the filter input to facilitate measurement of the preceding circuit offset at the driver output terminals, and a common mode regulator circuit regulates common mode voltages at the first and second driver output nodes to a predetermined value in read and write modes.
US09001446B1
A system and method for power management in a hard disk drive (HDD) assembly incorporating two or more read sensors includes directing a read/write head to follow a track; depowering one or more read sensors and readpath circuits associated with the read sensors; reading an analog readback signal through the first read sensor; processing the signal through an analog front-end to generate an input signal; sampling the input signal through an analog to digital converter at a first frequency to generate a first sampling signal; sampling the input signal through a second analog to digital converter at a second frequency to generate a second sampling signal; and generating a digital output signal from either or both sampling signals at a third sampling frequency through a digital signal processor. The method may additionally comprise adjusting a sampling frequency when power level reaches a threshold.
US09001443B1
A disk controller for a hard disk drive includes a disk formatter interfaced via an NRZ bus to a read channel for the disk. The disk formatter includes an LFSR accumulator coupled to the NRZ bus, as well as an LSFR generator that generates synthetic test data for the disk formatter. Under control of a test flag which signifies a test mode, the LSFR generator generates synthetic test data, which is used by the disk formatter to drive the NRZ bus. The LSFR accumulator accumulates data on the NRZ bus, together with data on servo information and sector information. An interface is provided through which the accumulated information is provided to test equipment, for offline analysis of the accumulated information, so as to confirm proper operation of the disk subsystem and/or to detect failures therein.
US09001442B2
Technologies are described herein for detecting adjacent track interference in a storage device using a size-adjustable sliding window. A value for an inter-track interference factor associated with at least one adjacent track is determined for a first area of a data track of the storage device. The first area may encompass a plurality of sectors of the data track. Next, it is determined whether the value of the calculated inter-track interference factor is greater than a threshold value, and if so, an indication of inter-track interference corresponding to the first area is stored in the storage device.
US09001434B2
An imaging lens system includes six non-cemented lens elements with refractive power, in order from an object side to an image side, a first lens element, a second lens element, a third lens element, a fourth lens element, a fifth lens element and a sixth lens element. The first lens element has positive refractive power. The second lens element has refractive power. The third lens element has positive refractive power. The fourth lens element has refractive power. The fifth lens element has refractive power, wherein both of the surfaces thereof are aspheric. The sixth lens element with refractive power has a concave image-side surface in a paraxial region thereof, wherein the image-side surface has at least one convex shape in an off-axis region thereof, and both of the surfaces thereof are aspheric. The imaging lens system has a total of six lens elements with refractive power.
US09001432B2
A zoom lens includes a first lens group, a second lens group, a third lens group and a fourth lens group, all of which are arranged in sequence from an object side to an image side along an optical axis. The first lens group is with positive refractive power. The second lens group is with negative refractive power. The third lens group is with positive refractive power. The fourth lens group is with positive refractive power. The first lens group includes a first lens and a second lens, both of which are arranged in sequence from the object side to the image side along the optical axis, wherein the first lens group and the first lens satisfy the following condition: −1.2
US09001430B2
A lens module for capturing an object light-beam from an object-side is provided. The lens module includes a first lens group, a second lens group, a third lens group, a fourth lens group and a fifth lens group sequentially-arranged from the object-side to an image-side. The five lens groups respectively have at least one lens with positive refractive-power and at least one lens with negative refractive-power. The first, third and fifth lens groups are fixed groups, while the second and fourth lens groups are movable groups. An image apparatus including the lens module is also provided.
US09001425B2
In this microlens array, unitary microlens arrays are respectively stacked onto an upper surface and lower surface of a glass plate, and each of the unitary microlens arrays is supported by an upper plate and a lower plate. Marks for alignment are formed on each of the unitary microlens arrays and on the glass plate, and the unitary microlens arrays and the glass plate are stacked onto each other aligned by these marks. This makes it possible to prevent ununiform exposure in scanning exposure using a plurality of microlens arrays.
US09001418B2
The present invention provides a highly flexible near-infrared reflecting film which has achieved good near-infrared reflection characteristics by comprising layers that have different refractive indexes and which is not susceptible to bending or cracks. This near-infrared reflecting film has a multilayer film, in which films having refractive indexes different from each other are laminated, on a film, and is characterized in that: the difference of the refractive indexes between at least two adjacent layers is 0.3 or more; at least one of the two adjacent layers contains a metal oxide; and at least one of the two adjacent layers contains a polyvinyl alcohol or an inorganic polymer.
US09001414B2
The invention relates to a high power amplifier waveguide for amplifying an optical signal wherein photo darkening due to high optical flux is reduced considerably. This is achieved by providing a cladding pumped amplifier waveguide wherein the optical mode overlap to the active material of the waveguide is low and/or wherein the active material is distributed over a large cross sectional region of the waveguide.
US09001412B2
A microelectromechanical (MEMS) device includes a substrate, a movable element over the substrate, and an actuation electrode above the movable element. The movable element includes a deformable layer and a reflective element. The deformable layer is spaced from the reflective element.
US09001403B2
Methods and apparatus include improving print quality of a bi-directionally scanning electrophotographic (EP) device, such as a laser printer or copy machine, according to ambient pressure in which operated. A moving galvanometer or oscillator reflects a laser beam to create scan lines of a latent image in opposite directions. A damping of the motion occurs per air density implicated by temperature and pressure, where the pressure changes occurring especially from altitude changes. During use, a drive signal, such as a pulse train, moves the galvanometer or oscillator at or near its resonant frequency. Based on a parameter of the drive signal, such as pulse width, the ambient pressure can be made known. In general, a high-pressure environment requires a relatively longer pulse width to resonate the galvanometer or oscillator in comparison to a shorter pulse width for a low-pressure environment. Corrections to print quality stem from the determined ambient pressure.
US09001393B2
A character reading method performed by a computer connected to an imaging unit includes repeating processing of recognizing the character included in one-frame image input latest in parallel to input of the moving image, performing matching of a recognition result obtained by every piece of recognition processing in units of characters along a time axis, fixing the recognition result appearing with an appearance ratio larger than a reference value previously decided in the recognition processing continuously performed at least predetermined times, and outputting the fixed recognition result.
US09001384B2
A mark forming apparatus according to the present embodiment includes an image acquisition portion, a calculation portion, a detection portion, and a formation portion. The image acquisition portion scans and acquires an image formed on a sheet. The calculation portion calculates a color material attachment amount of the image from the image acquired by the image acquisition portion. The detection portion detects a predetermined mark which is already formed on the sheet. The formation portion forms a predetermined mark with a shape according to the color material attachment amount calculated by the calculation portion on the sheet in addition to the existing predetermined mark detected by the detection portion.
US09001379B2
An image forming apparatus includes an input part for receiving image data; an image processor for image-processing the input image data; an output part for outputting data processed at the image processor; and a controller for controlling the image processor to process the image using one of a plurality of image processing modes having a toner consumption lower than a toner density to use when the toner density to use for outputting the input image data exceeds a preset reference density. The plurality of the image processing modes includes a boundary image processing mode which outputs only boundaries of objects in the image data. Thus, the toner used for the image forming can be saved.
US09001378B2
The disclosure discloses a print label producing apparatus. The apparatus includes a producing apparatus side attaching/detaching portion to and from which a nonvolatile storage device can be attached and detached, an attachment determining portion configured to determine whether or not the storage device is attached to the producing apparatus side attaching/detaching portion, a selection information write portion configured to write unique selection material information to the storage device in an attached state, and a contents acquisition portion configured to acquire contents stored in the storage device and corresponding to the selection material information when the attachment determining portion determines that the storage device is attached to the producing apparatus side attaching/detaching portion.
US09001372B2
An information processing apparatus acquires storage location information representing a storage location of an image file in a first external information processing apparatus from an image reading apparatus, and determines whether the storage location of the image file can store the image file based on the acquired storage location information. When it determines that the storage location of the image file can store the image file, it acquires screen information used to generate a screen for generating a scan ticket designating a storage location, from a second external information processing apparatus, and displays the screen for generating the scan ticket based on the acquired screen information.
US09001369B1
Methods and apparatus enforce policy on print jobs and track them per users. A computing device has a layered service provider (LSP) and a spooler. The LSP determines whether data coining to it corresponds to print data or not. If so, it extracts user information and determines whether any imaging policies apply to the user. If policy applies, the LSP iteratively acknowledges to the spooler that data is being successfully transferred to an imaging device so the spooler will continue sending a remainder of the data corresponding to the print job. Upon receipt of an entire print job, the LSP enforces policy and notifies the user. It also notifies an accounting server to update its policies. Further embodiments note relationships between the LSP and spooler and their interaction with layers in a TCP/IP model.
US09001363B2
A printing control system includes a transmission part configured to transmit data from an information terminal to an image processor; an analysis part configured to analyze the data received from the information terminal; a format determining part configured to determine the data format of the received data based on the analysis result of the analysis part; a conversion requesting part configured to, in response to the format determining part determining that the data format of the received data is convertible into print data printable in the image processor, transmit the received data to a data converter and request the data converter to convert the received data into the print data; and a printing control part configured to print the print data returned from the data converter in response to the request of the conversion requesting part.
US09001361B2
A method of editing a routing table managing network connections to a plurality of network interfaces in an image forming system includes receiving a user request for a change in network settings between the plurality of network interfaces defined in the routing table and networks, editing the defined network settings based on the received user request, and updating the routing table based on the edited network settings.
US09001356B2
A multifunction printer includes a display section, a web browser section for operating in accordance with software for a web browser, and a second web server section for operating in accordance with software for a web server. The web browser section causes the display section to display an operation window indicated by image data received from a first web server section, and notifies the second web server section of a control instruction to control the multifunction printer, which instruction is entered into the operation window. The multifunction printer further includes a device control section for controlling the multifunction printer in accordance with the control instruction of which the web browser section notifies the second web server section. This allows controlling the multifunction printer via the operation window received from an information processing apparatus even when a firewall is constructed between the information processing apparatus and the multifunction printer, and also allows easily customizing the operation window.
US09001355B2
Methods and structure for flexible printing of documents from a mobile device in a printing enterprise. The mobile device is coupled with a remote print server through a public network and coupled with one or more printers of the enterprise through a private network. The mobile device serves as an intermediate device such that the printer is not connected directly to the remote print server. A user of the mobile device identifies a document to be printed and sends information relating to the identified document over the public network to the remote print server. The server renders the document and returns the rendered document to the mobile device that, in turn, transmits the rendered document to the printer over the private network to cause the document to be printed. Further, the user may select the printer by physically locating a preferred printer (in close proximity and/or equipped/configured as desired).
US09001346B2
A signal processing circuit includes a generator, a transmission unit, a control unit, and a mode selector. The generator generates a process-required signal. The transmission unit transmits the process-required signal to a unit disposed after the transmission unit. The control unit supplies respective control signal to the generator and transmission unit. The control unit includes a reference clock generator constantly operated for generating a reference clock signal when the signal processing circuit is operated. The mode selector selects and shifts an operating mode of the signal processing circuit between a first mode and a second mode. In the first mode, the generator and transmission unit are supplied with respective normal control signal from the control unit for a normal operation. In the second mode, the generator is supplied with a control signal different from the normal control signal, and the transmission unit is supplied with the same normal control signal.
US09001340B2
A control device, which is used for a system including a content server configured to store a plurality of contents and a plurality of printers, includes: a determination unit configured to, when a first instruction for printing a specific content of the plurality of contents is input into a specific printer of the plurality of printers, determine specific print setting relation information relating to a specific print setting that is recommendable for the specific printer to print the specific content in accordance with specific type relation information relating to a type of the specific printer and specific content relation information relating to the specific content; and a print control unit configured to control a print execution unit of the specific printer to print the specific content by using the specific print setting in accordance with the determined specific print setting relation information.
US09001334B2
A novel means of provided velocity control of an interferometer wherein one of the moving components includes the beamsplitter element is introduced herein. Using a moving beamsplitter and coupled flexure mounting allows improved velocity control because the low mass of the beamsplitter enables the systems disclosed herein to respond faster than conventional mirror velocity controlled interferometer instruments with a resultant lower velocity error so as to provide a more stable and lower noise spectra from the analytical instrument. The control of the velocity of the beamsplitter and if desired, one or both of the configured mirrors, reduces the time wasted changing velocity at the ends of each scan. The result is an increase in data collection available in any given experiment time frame. Such desirable arrangements of the present invention thus allow scans to be collected at higher rates, which beneficially increase the ability to monitor rapidly changing systems.
US09001333B2
A recording medium determining device includes a light irradiating portion that irradiates a recording medium with visible light; a regular reflection light receiving portion that receives regular reflection light regularly reflected by the recording medium irradiated with light from the light irradiating portion; a diffused reflection light receiving portion that receives diffused reflection light diffusely reflected by the recording medium irradiated with light from the light irradiating portion; and a determining portion that determines the type of recording medium on the basis of each light amount of two or more visible light components with different wavelengths to one another among the light components received by the regular reflection light receiving portion and each light amount of two or more visible light components with different wavelengths to one another among the light components received by the diffused reflection light receiving portion.
US09001331B2
A device adapted for spectral analysis having a transmitting means adapted for electromagnetic radiation, a delimited space,in the form of a cavity, serving as a measuring cell and intended to be capable of defining an optical measuring distance, a sensing means of the electromagnetic radiation passing the optical measuring distance from said transmitting means, and a unit at any rate connected to the sensing means performing the spectral analysis, the sensing means for the electromagnetic radiation is opto-electrically adapted sensitive to the electromagnetic radiation, which is intended to fall within the spectral range whose chosen wavelength components or spectral elements are to become objects of an analysis in the unit performing the spectral analysis for determining in this unit, over calculations, the relative intensity of radiation of the spectral element.
US09001328B2
A sample information input unit obtains spectral reflectances of color patches formed on a medium from a measuring device or storage unit. A media characteristic input unit inputs bi-spectral radiance factors of the medium from the storage unit. A computing unit computes bi-spectral radiance factors of the color patches based on the spectral reflectances of the color patches obtained by the sample information input unit and the bi-spectral radiance factors of the medium input by the media characteristic input unit.
US09001324B2
A surface enhanced Raman spectroscopy (SERS) probe apparatus and a method of SERS probing employ Raman-active surfaces of a plurality of nanoscale field concentrator (NFC) structures at a terminal end of an optical fiber. The SERS probe apparatus includes an optical fiber having an optical path and a terminal end that terminates the optical path. The SERS probe apparatus further includes a plurality of NFC structures and nanoparticles on surfaces of the plurality of NFC structures. First ends of the NFC structures are adjacent to the terminal end of optical fiber. The nanoparticles are Raman active to an analyte.
US09001321B2
Provided is a microscope and an observation method which can improve spatial resolution. A microscope according to an aspect of the invention includes a laser light source (10), an objective lens (16) that focuses light from the laser light source on a sample, and a detector (22) that detects the laser light as signal light from a sample (17) when the sample (17) is irradiated with the laser light. The light is applied to the sample with an intensity changed to obtain a nonlinear region where intensities of the light and the signal light have a nonlinear relation due to occurrence of saturation or nonlinear increase of the signal light when the light has a maximum intensity, and the detector (22) detects the signal light according to the intensity of the laser light to perform observation based on a saturation component or a nonlinear increase component of the signal light.
US09001320B2
A technique for forming a two-dimensional electronic spectrum of a sample includes illuminating a line within a portion of the sample with four laser pulses; where along the entire line the difference in the arrival times between two of the laser pulses varies as a function of the position and the difference in the arrival times between the other two pulses is constant along the entire line. A spectroscopic analysis may then be performed on the resulting pulsed output signal from the illuminated line to produce a single-shot two dimensional electronic spectroscopy.
US09001318B2
A method carries out a soiling check of the measurement window of a measuring device for checking sheet material. A measuring device carries out the method. A device for processing a sheet material comprises the measuring device. The soiling check uses, only areas of the measurement window which correspond, in terms of width and position in the beam path of a light, to the areas of the checked sheet material which are checked during the checking of the sheet material. As a result, fewer cleaning steps are needed for the measurement window.
US09001312B2
A light scanning apparatus including a light source for emitting light in a direction different from a direction orthogonal to the reference direction, and a rotating reflection body that rotates about an axis inclined at an inclination angle φ to the reference direction and includes at least one reflecting surface that is disposed in a direction intersecting obliquely with the axis and reflects light incident on the reflecting surface at an incident angle θ. A specific scanning direction is a direction intersecting at an angle to the reference direction and the rotation axis inclination angle φ≠0°. The inclination angle φ is predetermined according to the incident angle θ such that deviation of the scanning beam reflected by the reflecting surface is smaller than the deviation of the scanning beam that would be obtained with the inclination angle φ of the rotation axis 0°.
US09001309B2
Microlithographic illumination system includes individually drivable elements to variably illuminate a pupil surface of the system. Each element deviates an incident light beam based on a control signal applied to the element. The system also includes an instrument to provide a measurement signal, and a model-based state estimator configured to compute, for each element, an estimated state vector based on the measurement signal. The estimated state vector represents: a deviation of a light beam caused by the element; and a time derivative of the deviation. The illumination system further includes a regulator configured to receive, for each element: a) the estimated state vector; and b) target values for: i) the deviation of the light beam caused by the deviating element; and ii) the time derivative of the deviation.
US09001303B2
A liquid crystal display panel (1) includes: a flexible first plastic substrate (11); a TFT substrate (10) having a terminal region (T) on the first plastic substrate (11) where a terminal (27) and a wire electrode (28) are formed; a CF substrate (20) facing the TFT substrate (10) and having a flexible second plastic substrate (13); and a liquid crystal layer (25) provided between the TFT substrate (10) and the CF substrate (20). The liquid crystal display panel (1) includes a metal layer (15) provided on a surface of the second plastic substrate (13) which faces the terminal region (T) to reflect laser light, and a protection film (16) sandwiched between the TFT substrate (10) and the CF substrate (20) to cover the metal layer (15).
US09001293B2
A display device and color filter substrate thereof are provided. The color filter substrate includes a substrate and a green color filter disposed on the substrate. A concentration of halogen in the green color filter is less than 10 ppm. The green color filter has a transmittance spectrum G(λ), and CMF_Z(λ) is the color matching function defined by International Commission on Illumination (CIE). A peak intensity between 380 nm and 780 nm of G(λ)×CMF_Z(λ) is in a range between 0.33 and 0.4.
US09001288B2
Color converting member, method of manufacturing the same, light emitting device, and display device
A color converting member is capable of suppressing deterioration in a phosphor by a simple manufacturing process. A method of manufacturing a color converting member includes a process of molding a resin material into a shape. In the process, molding the resin material and the phosphor integrally into a shape is performed, after kneading a phosphor that converts one color light to another color light into the resin material.
US09001286B2
An optical device has a first film (200) that has a first side and a second side. When illuminated by light (204) at the first side, the first film is characterized by a first fraction of broadly diffused transmitted light (206) and a second fraction of narrowly diffused transmitted light (208). A second film (202) is disposed to the second side of the first film. The second film has at least one free surface that diverts light. In some embodiments, the first film has a diffuse scattering optical density between 0.5 and 3. The device finds use in spreading and making light uniform in a backlight in a display such as a liquid crystal display.
US09001284B2
A liquid crystal display includes a gate line formed on an insulation substrate. A data line, insulated from the gate line, crosses the gate line. A first pixel is connected to the gate line and the data line. The pixel includes a thin film transistor having a control terminal connected to the gate line and an input terminal connected to the data line. A first liquid crystal capacitor has one end connected to an output terminal of the thin film transistor. A second liquid crystal capacitor has one end connected to the other end of the first liquid crystal capacitor. The first liquid crystal capacitor includes a first liquid crystal layer formed in a first microcavity and the second liquid crystal capacitor includes a second liquid crystal layer formed in a second microcavity.
US09001280B2
Methods and devices for shielding displays from electrostatic discharge (ESD) are provided. In one example, a display of an electronic device may include a high resistivity shielding layer configured to protect electrical components from static charges. The display may also include a conductive layer electrically coupled to the high resistivity shielding layer and configured to decrease a discharge time of static charges from the high resistivity shielding layer. The display may include a grounding layer and a conductor electrically coupled between the conductive layer and the grounding layer to direct static charges from the conductive layer to the grounding layer.
US09001276B2
A method and system for multiplexing of multiple channels of video data through a single analog broadcasting channel is disclosed. The method enables a spatial and temporal multiplexing of videos of each of the multiple channels. The multiplexed content is created as a result of multiplexing that is encoded to generate digital transport stream that is transmitted through analog medium. The system enables a STB receiver to decode each of the videos from the stream. At least one video from the multiple videos is played on the television based on user selection.
US09001271B2
A method for generating an interpolated frame includes: calculating a temporal matching difference corresponding to a target motion vector of a current block by performing a motion estimation on the current block; deriving a spatial relationship result according to the target motion vector and motion vectors corresponding to a plurality of neighboring image blocks; and deriving the interpolated frame according to the target motion vector, the spatial relationship result, and the temporal matching difference.
US09001267B2
An image divided into N pixel blocks, stored block wise in a camera core and transferred block wise from the camera core to a downstream processing engine local to the local memory. A direct handshaking is communicated, between the camera core and the downstream processing engine, in the block wise transfers. Optionally an optical sensor scanner divides the image with a scan rate N times a frame rate, each scan providing a block of the frame. Optionally, the block wise transfer includes a transfer through a local memory, local to the camera core, controlled by the direct handshaking.
US09001254B2
A digital photographing apparatus is provided that enlarges and displays one area of a subject to be photographed for a self-timer photographing standby time, as is a method of controlling the digital photographing apparatus. The method includes: receiving a self-timer photographing input signal; enlarging and displaying one area of a displayed input image for a self-timer photographing standby time; and capturing the displayed input image after the self-timer photographing standby time elapses. The area of the subject to be photographed is enlarged and displayed for the self-timer photographing standby time so that a photographing state of the subject to be photographed may be checked and a desired image may be captured.
US09001251B2
In a pixel array within an integrated-circuit image sensor, each of a plurality of pixels is evaluated to determine whether charge integrated within the pixel in response to incident light exceeds a first threshold. N-bit digital samples corresponding to the charge integrated within at least a subset of the plurality of pixels are generated, and then applied to a lookup table to retrieve respective M-bit digital values (M being less than N), wherein a stepwise range of charge integration levels represented by possible states of the M-bit digital values extends upward from a starting charge integration level that is determined based on the first threshold.
US09001244B2
An image sensor that has a pixel array section in which pixels are arrayed in a two-dimensional manner in vertical and horizontal directions and that controls an exposure time of each pixel in a rolling shutter method is disclosed. The sensor includes control means for determining an electronic shutter occurrence number within one horizontal scanning period, which is the number of rows where electronic shutters are simultaneously performed in one horizontal scanning period, by an operation based on an address addition amount (P1, P2, P3, . . . , PN) when a vertical address movement amount of the pixel array section for every one horizontal scanning period in an exposure regulation shutter, which is an electronic shutter for regulating exposure, executed corresponding to electric charge reading in each pixel is expressed as repetition of the address addition amount (P1, P2, P3, . . . , PN).
US09001240B2
The present invention relates to a common element pixel architecture (CEPA) imager. The CEPA includes a first column of pixels and a second column of pixels. The CEPA also includes a first column line and a second column line. A first group of pixels is arranged including pixels from the first column and the second column coupled to the first column line. A second group of pixels is arranged including other pixels from the first column and the second column coupled to the second column line.
US09001239B2
An image processing apparatus having a plurality of Bayer arrays each including 4 pixels sharing a common electrode connected to a vertical signal line wherein: each of the pixels has a pixel electrode connected to a horizontal signal line; and the location of each of the horizontal signal lines and the location of each of the pixel electrodes each connected to one of the horizontal signal lines are determined so that the locations in a neighboring Bayer array are a mirror image of counterpart locations in another Bayer array adjacent to the neighboring Bayer array.
US09001234B2
The invention provides an imager readout architecture utilizing analog-to-digital converters (ADC), the architecture comprising a band-limited sigma delta modulator (SDM) ADC; and a serpentine readout, which can be configured to allow the band-limited SDM to multiplex between multiple columns by avoiding discontinuities at the edges of a row. SDM ADC image reconstruction artifacts are minimized using a modified serpentine read out methodology, the methodology comprising using primary and redundant slices with the serpentine read out in opposite directions and averaging the slices. Advantageously, the invention can be used to develop a read out integrated circuit (ROIC) for strained layer superlattice imagers (SLS) using sigma delta modulator (SDM) based analog to digital converters (SDM ADC).
US09001233B2
Apparatus and method for realizing a processing with which a pixel gravity center control can be conducted when a pixel number reduction image is generated in an image pickup apparatus. A pixel unit configured to output a pixel addition signal obtained by adding output pixel signals from pixels having different sensitivities to each other and a pixel information synthesis unit configured to execute a weighted addition processing of multiplying plural pixel addition signals output from the pixel unit by a previously set gain and calculate a configuration pixel value of a pixel number reduction image where a total number of pixels is lower than a number of pixels of the pixel unit are provided.
US09001227B2
A method of combining data from multiple sensors is disclosed. The method includes providing a common control signal to multiple image sensors. Each of the multiple image sensors is responsive to the common control signal to generate image data. The method also includes receiving synchronized data output from each of the multiple image sensors.
US09001226B1
A system and method are provided for coordinating image capture using multiple devices, including for example multiple image capture devices (cameras), multiple lighting devices (flash), and/or the like. In at least one embodiment, the system of the present invention is configured to collect image information from multiple image capture devices, such as cameras, and/or to collect multiple images having different lighting configurations. The collected image data can be processed to generate various effects, such as relighting, parallax, refocusing, and/or three-dimensional effects, and/or to introduce interactivity into the image presentation. In at least one embodiment, the system of the present invention is implemented using any combination of any number of image capture device(s) and/or flash (lighting) device(s), which may be equipped to communicate with one another via any suitable means, such as wirelessly. A communication protocol is established for enabling such communication, such as WiFi, Bluetooth, or the like.
US09001213B2
A video signal waveform monitor is shown, which receives an input video signal composed of video lines. A video signal digitizer samples the input video signal at video sample points to generate a sequence of video pixel data, which is written into an acquisition framestore is organized into a video pixel array so as to represent a raster of the input video signal. A level analyzer reads the video pixel data row-by-row from segments of the video pixel array and increments video level data at addresses in cache memory in response to the serially-read video pixel data. This generates a sequence of video level data, which is written into an output framestore and which represents the level of the waveform of the input video signal. The segments of the video pixel array comprise at least one and less than all of the columns in the video pixel array.
US09001212B2
Systems and methods are disclosed that provide an infrared-transmissive dome, such as for infrared imaging applications. For example, an infrared-transmissive dome, for an embodiment, includes a main body providing a hollow, hemispherical-shaped dome; wherein the main body is made of an ultra-high molecular weight or a very-high molecular weight polyethylene material; and wherein the main body has a wall thickness equal to or less than approximately 0.012 inches to allow infrared transmittance greater than approximately sixty five percent through the main body for infrared imaging in a wavelength range of approximately three to fourteen micrometers.
US09001209B2
Disclosed is a monitoring technique for displaying a low-luminance image of e.g. a dark area in an easily visible manner. The inventive apparatus includes an image capturing unit 10 for capturing an image of an object to be monitored, an inversion condition determining unit 11 for determining whether an inversion condition is satisfied or not based on the visibility of the image captured by the image capturing unit 10, and a display image generating unit 12 for generating a negative/positive inverted image from the captured image when it is determined by the inversion condition determining unit 11 that the inversion condition is satisfied.
US09001196B2
Three dimensional (3-D) program content viewing system in a media environment with different media presentation devices detects a first synchronization signal transmitted from a first synchronization signal source, wherein the first synchronization signal is associated with first 3-D program content and includes a first signal identifier. The system detects a second synchronization signal transmitted from a second synchronization signal source, wherein the second synchronization signal is associated with second 3-D program content and includes a second signal identifier. The system then receives a selection of one of the first synchronization signal and the second synchronization signal and discriminates between the first synchronization signal and the second synchronization signal based upon the first signal identifier and the second signal identifier. The system then controls a left lens and a right lens of 3-D shutter glasses in accordance with the selected one of the first synchronization signal and the second synchronization signal.
US09001195B2
An image display device of present invention includes a signal control portion that receives input of an image signal, and outputs a signal that causes an image for a right eye and an image for a left eye to be displayed alternately, a display panel to which the signal converted by the signal control portion is input, and which alternately displays the image for the right eye and the image for the left eye, and a polarity reversing portion that performs polarity reversal of a drive voltage of the display panel due to the signal, at least every time both the image for the right eye and the image for the left eye are displayed.
US09001193B2
Apparatus, method, and system for synchronization and a three-dimensional (3D) display apparatus using the same are provided. The 3D display apparatus includes: a power generator which generates power based on a received alternating current (AC) power signal, a detector which detects zero crossing points of time of the received AC power signal, and a controller which generates a reference signal based on the detected zero crossing points of time and transmits the reference signal to at least one other 3D display apparatus.
US09001185B2
An image processing apparatus includes: a cut position determination unit determining a cut position at which an annular image is cut in a radial direction to maintain continuity of a subject in the annular image generated by an omnidirectional image capturing apparatus; and an image conversion unit converting the annular image into a long-rectangular-shaped panorama image by cutting the annular image at the cut position determined by the cut position determination unit and developing the cut annular image.
US09001184B2
A method and an apparatus for taking an image and conducting video communication are provided. The image-taking and video communication apparatus includes a transparent display, a front camera, and a controller. The front camera is positioned behind the transparent display and captures an image of an object in front of the transparent display through the transparent display. The controller synchronizes an image capture period of the front camera with a screen output period of the transparent display so that image capturing of the front camera alternates with screen output of the transparent display.
US09001174B2
The image forming apparatus includes a photosensitive drum and a light emitting device. In the rotational axis direction of the photosensitive drum, the width of the weak light exposure region on the photosensitive drum in which an exposing device emits weak light is larger than the width of a region corresponding to the width of a recording medium on which an image is formed, but smaller than the width of a region on the photosensitive drum charged by a charging roller.
US09001173B2
Disclosed are examples of methods and documents of a color laser image observable in three dimensions, which comprises a laserable protective sheet, an array of lenses, colored sub-pixels in column form, wherein a laser beam causes the grey levels to appear in two color laser images observable in three dimensions via stereoscopic effect, and a substrate. The whole, in various implementations, may be laminated. The axes of the columns of sub-pixels and of the lenses may be perpendicular. The laser beam may scan the sub-pixels along the axis of the lenses, in various embodiments.
US09001169B2
The disclosure discloses a printer comprising a storage device, a feeder, a printing head, an instruction input portion, a first control portion, a detection determining portion, and a second control portion. The printing head performs desired printing on the print-receiving medium fed in a forward direction along a transport direction by a feeder. The instruction input portion inputs an operation instruction for starting print processing. The first control portion controls the feeder so as to start feeding of the print-receiving medium in the forward direction. The detection determining portion determines whether or not a detecting device detects the identifier after feeding in the forward direction was started. The second control portion controls the feeder so as to feed the print-receiving medium in a reverse direction, and to position a position of the print-receiving medium in a predetermined first initial position.
US09001163B2
A method of driving an image display device including (A) an image display panel in which pixels each having first to fourth subpixels displaying first to third primary colors and fourth color, respectively are arranged in a two-dimensional matrix, and (B) a signal processor, in an i-th image display frame, in the signal processor, first to fourth subpixel output signals are obtained on the basis of at least first to fourth subpixel input signals and a corrected expansion coefficient α′i-0, and output to the first to fourth subpixels, respectively, the maximum value Vmax(S) of luminosity with saturation S in an HSV color space is obtained in the signal processor or stored in the signal processor, and in the i-th image display frame, in the signal processor, (a) saturation Si and luminosity Vi(S) in pixels are obtained, (b) an expansion coefficient αi-0 is obtained, and (c) the corrected expansion coefficient α′i-0 is determined.
US09001161B2
Chromaticity of light output by a light-emitting diode, such as a light-emitting diode (LED), is adjusted while maintaining a brightness of the illumination source substantially constant by adjusting a drive schema for the illumination source. A driver for LEDs or other light-emitting diodes provides for varying a drive schema to adjust chromaticity of driven LEDs.
US09001146B2
A method, computer program product and system for automatically determining an object display mode to provide a display for objects. Information about the objects to be displayed and information about a display area is received. An object display mode is selected according to the received information about the display area and according to the received information about the objects to be displayed. A display for the objects is then provided with the selected object display mode. Switching can be made between a single-page display mode and a paging display mode, and whether in the single-page display mode or in the paging display mode, the user can conveniently browse and select the display objects, and the browsing efficiency and user experience of object display for the user are improved.
US09001139B2
An image processing device includes an image generation mechanism configured to generate computer graphics images based on computer graphics description data, an image mapping mechanism configured to designate an object or a part of the object of computer graphics drawn by the image generation mechanism as a texture map target, and to texture map texture map images to a surface of the texture map target, and a superimposition mechanism configured to superimpose superimposition images at a position corresponding to the texture map target of the computer graphics images where the texture map has been performed in the image mapping mechanism, based on position information for the texture map target of the computer graphic image.
US09001132B1
A computer-implemented method for providing retargeting of actor motion includes: receiving, in a computer system, an input generated by user selection of at least one of multiple real-time constraint scenarios, each real-time constraint scenario corresponding to a relationship between motion capture information from an actor and a position or movement of a character driven by the motion capture information; activating, based on the selected real-time constraint scenario, one or more of multiple limb solvers for the character which determines at least a first joint angle for a corresponding character limb; registering, for at least one character limb where the corresponding limb solver is not activated, a corresponding joint angle from the motion capture information as a second joint angle; and determining a root location for the character based on at least the first and second joint angles.
US09001123B1
A polygon mesh may have a plurality of vertices and a set of polygon faces. Each of the triangles defining candidate planes may include one of the vertices as an endpoint of each line segment. For each of the candidate planes, an area or a number of vertices, referred to as a point count, may be computed. The candidate planes may be ordered by decreasing area or by decreasing point count. A planar face may be selected in accordance with the ordering. The selected planar face may be added to a set of polygon faces for a modified polygon mesh. Non-selected ones of the candidate planes may be excluded, whenever the non-selected candidate plane overlaps in area with an already selected planar polygon face. The selecting and the excluding may be repeated until the modified polygon mesh is formed. The modified polygon mesh may be a tessellation in three dimensions.
US09001117B2
A method for tracing a plurality of virtual particles through a flow filed includes receiving a flow field. A flow domain is divided into cells. Virtual particles are defined within the flow domain and values are collected for flow properties at each cell. A histogram is generated for each cell representing the collected flow properties for that corresponding cell. The histogram includes, for each of the one or more flow properties, a plurality of bins defining ranges of property values and a count of virtual particles within that cell that exhibit those properties. The histograms for the plurality of cells are advected with respect to the flow field over time. A graphical representation of the plurality of particles within the flow domain is rendered based on the advected histograms for the plurality of cells using a graphics processor.
US09001103B2
A computational device energizes, at different times, a first set of display elements in a display in accordance with differing values and/or display parameters in response to differing energy management requirements.
US09001092B2
A digital-to-analog converter includes a first decoder, a second decoder and a voltage summing buffer. The first decoder receives upper bits of a digital signal and upper reference voltages to output an upper voltage corresponding to the upper bits. The second decoder configured to receive lower bits of the digital signal and lower reference voltages to output a lower differential voltage corresponding to the lower bits. The voltage summing buffer generates an output voltage based on the upper voltage and the lower differential voltage, such that the output voltage corresponds to the digital signal including the upper bits and the lower bits.
US09001080B2
A touch panel device includes a touch panel including first and second electrodes, an alternating-current (AC) signal source operable to input an AC signal into the first electrode, an inductive element electrically connected in series between the AC signal source and the first electrode, and a detection circuit operable to detect a change of a capacitance between the first electrode and the second electrode upon a touch of an object on the touch panel, based on a change of a signal output from the second electrode. This touch panel device can enhance detection sensitivity with a simple configuration.
US09001078B2
When an ideal value of a width of each of a plurality of detecting electrodes (input-position detecting electrodes) in an X direction provided in an input device is defined as Wsmax [μm], an interval which is a center-to-center distance of adjacent detecting electrodes is defined as P [μm], and an effective inter-electrode distance represented by an inverse number of a value obtained by dividing a relative permittivity of an intermediate member by a thickness of the intermediate member is defined as D [μm], Wsmax is represented by a formula of: Wsmax=0.488×P-4.33×D-160. Also, a width of each of the plurality of detecting electrodes in the X direction falls within a range of not more than ±150 μm of a value of the Wsmax.
US09001076B2
A capacitance-type touch panel includes an insulating layer, a first transparent conductive layer, a number of first electrodes, a second transparent conductive layer, and at least one second electrode. The first transparent conductive layer includes a carbon nanotube film. The carbon nanotube film includes a number of carbon nanotube wires substantially parallel with each other and a number of carbon nanotube clusters located between the number of carbon nanotube wires. The carbon nanotube wires extend along an X direction and are spaced from each other along a Y direction. The carbon nanotube clusters between each adjacent two of the carbon nanotube wires are spaced from each other along the X direction. The X direction is intercrossed with the Y direction.
US09001075B2
A display device having a touch panel function includes a plurality of pixel circuits arranged in a matrix shape and sensing circuits arranged in a region between the adjacent pixel circuits for reading out a magnitude of coupling capacitance. A display driver writes a display signal in the pixel circuit every row line by driving the scanning lines and signal lines in a display operation period. A sensing driver senses a signal showing magnitude of the coupling capacitance from the sensing circuit every row line by driving the plurality of scanning lines and signal lines in a sensing operation period. The display operation period and the sensing operation period are repeated in turns. A voltage in a range used for the displaying operation is written into the signal line in a preliminary writing operation period between after the sensing operation period and before the display operation period.
US09001071B2
An energy-efficient touch panel control device includes a touch panel, a buffer memory, an analog to digital conversion unit, for converting analog output voltage to digital trace data and storing the digital trace data in the buffer memory, and according to a control signal, switching an operating mode, an operation unit, generating a detecting result according to the digital trace data, switching the operating mode according to an interrupt signal, and including a mode control unit, for generating the control signal according to the interrupt signal, and a host interface unit.
US09001061B2
An aspect provides a method, including: detecting a selection of an object on a touch screen display using touch based input; providing a visual indication of the object on the touch screen display in response to the detection of a selection; accepting gesture input at the touch screen display to fly out from the underlying document while maintaining the visual indication of the object on the touch screen display, such that during the fly out more of the underlying document is displayed; and moving the visual indication of the object about the underlying document in response to the accepted gesture input at the touch screen display. Other aspects are described and claimed.
US09001059B2
A method and apparatus for an improved workflow for choosing an intended target element from an imprecise touch on a touch screen display comprises determining whether a touch is within a bounding box of precisely one of a plurality of elements on a touch screen display; expanding the bounding box of all of the elements in the plurality of elements; determining whether the touch is within the expanded bounding box of at least one element in the plurality of elements; calculating a distance between the touch and a center of the bounding box for at least two elements in the plurality of elements, wherein the touch is determined to be within the expanded bounding box of the at least two elements; and determining a target element based on the shortest calculated distance between the touch and a center of the bounding box of the at least two elements.
US09001058B2
A tool for performing a computer action based on a user's touch on a touch screen. The user's touch is characterized by certain parameters which are compared to predefined parameters which correspond to the hand that was used to touch the screen and a specific computer action. If the parameters match, within a specific error tolerance, the computer action is performed.
US09001057B2
A measurement device that comprises a display control part that displays a measurement result obtained from a probe that measures a pH or the like, the display control part displays in a switchable manner at least two displaying screens among a numerical value displaying screen that displays the measurement result as a numeric value, an analog displaying screen that displays the measurement result like an analog meter and a graph displaying screen that displays the measurement result as a time series graph, and the display control part switches each of the displaying screens continuously in conjunction with a touch slide operation on the display by moving the displaying screen displayed prior to the touch slide operation to the outside of a displaying area on the display and by moving the other displaying screen to the inside of the displaying area in accordance with the above-mentioned movement.
US09001053B2
A display system for controlling a selector symbol within an image includes, but is not limited to, a display screen that is configured to detect a touch of an operator on a surface of the display screen and that is further configured to display a three-dimensional image. The display system further includes a processor that is operatively coupled to the touch screen. The processor is configured to command the display screen to display a three-dimensional selector symbol within the three-dimensional image, and to command the display screen to move the selector symbol within the three-dimensional image in a manner that corresponds with the touch of the operator.
US09001051B2
An information processing apparatus includes a position detecting section that detects a touch position of a pointing object on a display screen of a display section, a region detecting section that detects a region on the display screen which is hidden by the pointing object, and a control section that displays information associated with the touch position outside the region detected by the region detecting section, when the touch position is detected by the position detecting section.
US09001048B2
An information processing system includes a first information processor to process data to be displayed in a first display unit and a second information processor to indicate the data displayed in the first display unit. The first information processor includes a first display control unit to control the data to be displayed; a first communication unit to receive operation information from the second information processor and transmit data information about a piece of data indicated by the second information processor; and a first detecting unit to detect a position on the first display unit indicated by the second information processor. The second information processor includes an accepting unit to accept an operation by a user; a second communication unit to transmit operation information to the first information processor and receive the data information from the first information processor; and a received data storage unit to store the data information.
US09001044B2
A method of inputting a user command includes displaying a navigation window including letter key symbols corresponding to keys on a manipulator. If a first user command as to a specific key on the manipulator is input, a specific letter key symbol on the navigation window corresponding to the specific key is activated, and if a second user command as to the specific key is input, the letter corresponding to the activated specific letter key symbol is input. Accordingly, even if the manipulator is separated from the display on which a result of the manipulator is displayed, the user can input a user command by looking at the display only.
US09001040B2
An apparatus is disclosed in a first embodiment of the invention as including a non-conductive substrate providing a first surface onto which a user can apply a fingerprint. A fingerprint sensing circuit is applied to a second surface of the non-conductive substrate opposite the first surface. The fingerprint sensing circuit is capable of sensing a fingerprint through the non-conductive substrate. A navigation device is positioned adjacent to (e.g., below) the non-conductive substrate and is capable of being manipulated by the user through the non-conductive substrate.
US09001036B2
Systems and methods for camera-based fingertip tracking are disclosed. One such method includes identifying at least one location of a fingertip in at least one of the video frames, and mapping the location to a user input based on the location of the fingertip relative to a virtual user input device.
US09001032B2
The present invention relates to a tactile transmission system using a glove type actuator device and a method thereof, and more particularly to a tactile transmission system using a glove type actuator device and a method thereof with which a user can cover his hand and which can directly transmit a movement according to a voltage level to a body part of the user through a piezo disk actuator attached to a position in which a stimulus is transmitted. The tactile transmission system according to one embodiment of the present invention comprises: a touch screen for driving a predetermined program; and a glove type actuator device for vibrating a part which comes in contact with the touch screen to provide curve information about a surface of an object on the program to be displayed on the touch screen. The glove type actuator device comprises: one or more actuator modules for providing vibration stimuli; a three-axis acceleration sensor for sensing positions of the actuator modules; and a controller for mapping the position information sensed by the three-axis acceleration sensor to a corresponding position on the touch screen and generating a driving signal to vibrate the actuator modules according to the curve information about the surface of the object corresponding to the mapped position.
US09001025B2
Example embodiments relate to a reflective type display apparatus using dielectrophoresis and a method of manufacturing the reflective type display apparatus. The display apparatus may include a first substrate and a second substrate arranged so as to face each other; a hydrophobic insulating layer formed on the first substrate; a hydrophobic pattern electrode unit arranged to form a non-uniform electric field; a hydrophilic dielectric medium with hydrophobic uncharged particles therein in a space between the first substrate and the second substrate; and a reflective plate arranged under the first substrate. The display apparatus may form an image by using dielectrophoresis of the hydrophobic uncharged particles according to an electric field gradient formed by the hydrophobic pattern electrode unit.
US09001021B2
A display device includes: a display panel which displays an image; a light source unit which provides light to the display panel; and a light source controller which transmits a control signal to the light source unit, wherein the light source unit includes a light source including a plurality of light emission blocks, the light source controller includes a first reference determining unit which determines first references based on an input image signal, a reference difference calculator which calculates at least one reference difference for neighboring light emission blocks by using first references, a parameter generator which generates at least one parameter by using the at least one reference difference, and a second reference determining unit which determines a second reference for a corresponding light emission block by using the first references and the at least one parameter.
US09001016B2
A method and system for restoring output to a display device. The method includes receiving a request to restore the output, modifying output timing so output is visible on a display device, and invoking an output configuration application. The method and system allow a user to restore the output on a display device after the output has been configured to settings which exceed the capabilities of the display device.
US09001012B2
Herein disclosed an image display including: row scan lines configured to supply a control signal; column signal lines configured to supply a video signal; and pixel circuits configured to be disposed at intersections between the scan lines and the signal lines, wherein each of the pixel circuits has at least a drive transistor, a sampling transistor connected to a gate of the drive transistor, a capacitive part connected between the gate and a source of the drive transistor, and a light-emitting element connected to the source of the drive transistor.
US09001010B2
A flexible display device and a method of compensating for luminance of the flexible display device, the flexible display device including: a flexible display panel including a first display region and second display regions at opposite sides of the first display region and having a shape of a curved surface that is bent from a central axis of the flexible display panel at a angle; optical sensors disposed in each of the first display region and the second display regions and measuring amounts of light in the first display region and the second display regions; and a luminance compensation unit compensating luminance of the first display region and luminance of the second display regions based on the measured amounts of light.
US09001008B2
Provided is a display device including: a display region in which a plurality of pixels each including a light emitting element are arranged; a power supply unit provided outside the display region; a plurality of power supply lines connected to the power supply unit, for supplying power to the elements; and a light emission control unit (108) for determining a reference voltage applied to each of the plurality of pixels to display an image, based on information associated with the image and adjusting currents supplied from the plurality of power supply lines, in which the light emission control unit includes: a correction voltage setting unit (681) for discretely setting predetermined steps of correction voltages based on the information; and a reference voltage determining unit (682) for selecting one of the correction voltages set by the correction voltage setting unit, based on the information, to determine the reference voltage.
US09001005B2
A Heads-Up Display (HUD) system for mounting on a pair of goggles comprises a processing unit configured to be coupled to a strap of the goggles, a display unit connectable to the processing unit and comprising a display configured to display images under control of the processing unit, and a display mount configured to be coupled to the goggles and adjustably receive the display unit.
US09000986B2
A handheld device includes an antenna area and an outer frame, wherein the outer frame includes a frame body and a carrier. The antenna area is for transmitting a radio frequency signal with a first wavelength and has a ground part and a feeding part. In addition, the ground part within the antenna area is electrically connected to a ground plane. The frame body of the outer frame has an extended area corresponding to the antenna area to form a projected feeding point. The carrier of the outer frame is disposed at the peripheral area of the opening of the frame body, wherein the peripheral area of the frame body has a first ground point electrically connected to the ground plane, and the spacing between the first ground point and the projected feeding point is correlated to the first wavelength.
US09000980B2
A GNSS receiver includes at least one buffer and at least one correlator block. The at least one buffer stores a plurality of samples corresponding to a received signal. The at least one correlator block includes a Doppler derotation block configured to perform Doppler derotation corresponding to at least one Doppler frequency on the plurality of samples, a register array configured to be loaded with the plurality of samples on Doppler derotation corresponding to a Doppler frequency of the at least one Doppler frequency, and a correlator engine configured to generate correlation results by correlating the plurality of samples in the register array with a plurality of code phases for at least one GNSS satellite. A presence of at least one GNSS satellite signal may be detected based on coherent accumulation and a non-coherent accumulation of the correlation results.
US09000961B2
An arrangement for reading out an analog voltage input signal includes an input applying the input signal thereto, and a reference unit generating an analog reference voltage. To perform online self-calibration, the arrangement includes a superposition unit generating a combined analog signal by superimposing the analog reference voltage onto the input signal, a converting unit converting the combined analog signal into a one-bit serial data stream at a conversion sampling rate, and a decomposition unit, which includes at least two digital filters configured to generate from the serial data stream two corresponding digital signals at different data rates, which can be less than the conversion sampling rate. Two data processing units calculate from the corresponding digital signal a digital input voltage representing the input signal and a digital reference voltage representing the analog reference voltage or a disturbance voltage signal representing parasitic voltage components introduced by the superposition unit, respectively.
US09000953B2
A solar powered navigational light including: a casing; at least one illuminated lenses on a front side of the casing; a battery compartment within the casing, where the battery compartment houses a rechargeable battery; and a solar panel array on a top side of the casing, where the solar panel array produces energy to charge the rechargeable battery. The solar panel array may function as a sensor to activate the illumination of the at least one illuminated lenses. In one particular embodiment, the illuminated lenses may emit a combination of red, green or white lights. The illuminated lenses may include a first lenses and a second lenses in combination.
US09000952B1
Present novel and non-trivial methods for presenting taxi information to a pilot are disclosed. Each method may generate an image data set from taxi information data and navigation reference and object data. A first image data set may be representative of an image in which one or more first location highlighter(s) highlighting the location(s) of one or more raised surface feature(s) appears within an egocentric or exocentric three-dimensional representation of a scene located outside the aircraft. A second image data set may be representative of an image in which one or more unconventional surface feature(s) highlighting the location(s) of one or more raised surface feature(s) appears within an egocentric or exocentric three-dimensional representation of a scene located outside the aircraft. A third image data set may be representative of an image in which one or more unconventional surface feature(s) appears within an airport surface map.
US09000951B2
An aeronautical safety device which seeks to improve landing and take-off operations of aircraft, having a simple device which, by means of light means and push buttons or actuators indicating the instructions received, allow reflecting the instructions received from the control tower on a panel or in any other enabled point or by the senior cabin crew members themselves. The device has a casing on which at least two display indicators are arranged. One of them would serve for indicating that permission for takeoff or landing has been received, while the other light indicator would exclusively serve to indicate that the cabin is secure. The display indicators indicating that the instruction to initiate takeoff or landing has been received can range from light indicators to simple hinged flaps.
US09000949B2
A parking space monitoring system, with multiple microprocessors for handling various parking space management conditions, including at least one of the following conditions: (1) Space Occupancy (vehicle detection); (2) Parking Meter Status; (3) Display of Parking Policy to Motorists; (3) Motorist User Interactions; (4) Maintenance User Interactions; (5) Radio Communications with a Central management system and Network; and (6) Coordination of the operation between various ones of the microprocessors.
US09000947B1
A system and method for controlling a hot pursuit situation in which an electronic device is attached to a fleeing vehicle to be tracked by projecting it, as by shooting it from a firearm, against the fleeing vehicle. The device is contained in a frangible pellet, having an outer casing containing a sticky substance coating the electronic device contained within that will be attached to the fleeing vehicle upon impact. In addition to containing circuitry for tracking the vehicle, the circuitry of the pellets contain circuitry to change traffic lights in the vicinity of the vehicle to green for the fleeing vehicle so crossing traffic is prevented from moving in front of the fleeing vehicle at an intersection through which the fleeing vehicle is passing.
US09000946B2
Devices and methods for detecting traffic objects. A detector configured to capture radiated energy and to generate data associated with the radiated energy, wherein the radiated energy is radiated from traffic objects. A communicator configured to transmit the data associated with the radiated energy. A power source configured to provide power to the detector and the communicator.
US09000941B2
A method for estimating a steady state response of a drill string in a borehole includes calculating a first displacement of the drill string in a frequency domain for a first excitation force frequency and a number of multiples of this frequency using an equation of motion of the drill string. The equation of motion has a static force component, an excitation force component, and a non-linear force component with respect to at least one of a deflection and a derivative of the deflection of the drill string. The method further includes: transforming the first displacement from the frequency domain into a time domain; calculating a non-linear force in the time domain; calculating a frequency domain coefficient derived from the calculated non-linear force in the time domain; and calculating a second displacement of the drill string in the frequency domain using the equation of motion and the frequency domain coefficient.
US09000936B2
A torque warning hand tool includes a main body with one drive head, and a torque detector, a control display device and a warning unit disposed on the main body and electrically connected to each other. The control display device is used to set a preset value and receive a torque value from the torque detector to compare the torque value with the preset value. The warning unit has a first, a second and a third warning modes respectively corresponding to three colored light sources. After compared, according to the warning mode in which the torque value falls, the control display device drives the different colored light sources to emit corresponding colors for an operator to identify the torque extent applied to the hand tool.
US09000934B1
Disclosed herein are apparatus, methods, and systems for assessing the life span of a product and/or system—particularly with respect to end-of-life conditions which are defined by a customer, owner, operator, or other person(s) associated with the product and/or system—and communicating the assessment to said customer, owner, operator, or other person(s). According to one aspect, end-of-life conditions are defined in terms of product life (e.g., anything that relates to how well and how long the product/system operates) and/or economic life (e.g., anything that relates to the cost of deriving a benefit from the product/system). In one particular example, the products or systems relate to lighting systems, particularly those utilizing LED (or other solid-state) light sources.
US09000933B2
Devices, systems, and methods are disclosed which relate to utilizing a wireless communication device which receives allergy information from network nodes. The wireless communication device contains an allergy profile for the user. When the wireless communication device receives allergy information this allergy profile is referenced to determine if any allergens near the user may cause a problem for the user. If allergens exist to which the user is allergic, a visual, aural, and/or tactile alert is output on the wireless communication device.
US09000930B2
A system and method for performing hand hygiene compliance. The method includes receiving a notification that an individual has entered a physical location. The notification is received by a node in a wireless mesh network that includes a plurality of nodes corresponding to objects in the physical location. A hand hygiene protocol is identified for the individual. It is determined that the individual has not followed the hand hygiene protocol. The determining is performed by software executing on the nodes in the wireless mesh network and responsive to a previous and a current location of the individual relative to the objects in the physical location. The individual is notified in response to determining that the individual has not followed the hand hygiene protocol.
US09000927B2
A method and system for monitoring biometric data. The method includes authenticating a user and providing content to a user device associated with the user. Biometric data associated with the user is obtained and compared to one or more threshold values. A representation of the comparison is generated and provided to the user.
US09000923B2
A drive over, reader system for a wheel-based, electric field-actuated transponder device includes a vehicle support pad surface; an antenna device on the support pad located to operatively align with a wheel-based transponder device of the vehicle with the vehicle positioned on the pad in a read location; a transmitter device and a receiver device coupled to the antenna device for generating an upwardly directed electric field to actuate the transponder device and receive a responsive signal back from the transponder device. The upwardly directed electric field operatively engages the transponder device as the vehicle drives over the antenna device. Multiple antennae may be aligned in a linear array to subject the transponder device to multiple electric fields as the vehicle traverses the support pad. The antenna device of the reader system may be configured as a layered panel positioned on the support pad or as a dipole antenna embedded within the support pad.
US09000915B2
The present invention is directed to a method of asset location. Location data is received from a cellular transmitter associated with a selected asset, which location data includes data representative of a cellular receiver with which direct communication with the cellular transmitter is made. The location data is then communicated to a tracking service system, which tracking service system includes a database representative of geographic locations associated with a plurality of cellular receivers. The database is then queried with received location data so as to generate geographic tracking data associated with a location of the cellular receiver, the geographic tracking data including display data adapted to generate a map image including a representative of a location of the selected asset. The geographic tracking data is then communicated to an associated security agency so as to allow for viewing of an image generated in accordance with the display data and at least one of tracking and interception of the selected asset.
US09000914B2
A method for automatically adding a first sensor device to a first personal area network in a healthcare application includes receiving a signal with out-of-band pairing data at the first sensor device. The first sensor device is disposed on a patient's body. The out-of-band pairing data is injected into the patient's body by a second sensor device disposed on the patient's body. Pairing data is extracted from the received signal at the first sensor device. Using the pairing data, the first sensor device is added to the first personal area.
US09000912B2
A monitoring apparatus includes a processor that executes a procedure, the procedure including outputting an alert when observation data satisfies a certain condition, the observation data being obtained at a certain time interval, suppressing the outputting of the alert in accordance with control, and performing control the suppressing until the certain time elapses since one of the outputting of the alert and the suppressing is performed.
US09000903B2
A monitoring service is configured to receive monitoring data from one or more collision detection systems. The monitoring data may comprise collision detection information, such as a collision detection model, sensor data, data pertaining to potential collisions, data pertaining to collisions, vehicle identifier(s), and so on. The monitoring service may extract and/or derive indexing criteria from the monitoring data, and may store and/or index the monitoring data on a persistent storage. An entity may request monitoring data pertaining to a specified time, location, and/or vehicle. The monitoring service may respond to the request by identifying monitoring data that conforms with the request, and providing the identified monitoring data to the requesting entity. The monitoring service may issue collision notifications to emergency service entities and/or may provide collision alerts to vehicles in the vicinity of a collision.
US09000901B2
A method of controlling the operation of a door of a vehicle relative to a door frame of the vehicle is provided. The position of the door is sensed and a door open command or a door close command is received. Opening or closing of the door at preselected speeds is initiated based on the command received. The length of time that the open command or close command is continuously received is then determined. The door is moved at a relatively slow speed for a predetermined initial time period and after the predetermined initial time period has ended the door is moved at a relatively faster speed.
US09000892B2
A method of detecting an RFID tag includes transmitting a bait RFID read signal at a bait power level and a simulated response signal at a simulated-response power level. A selected reader frequency is monitored for a selected detection time. A skimmer is determined to be present if a skimmer RFID read signal is detected during that time. If a skimmer is not determined to be present, multiple read signals are transmitted sequentially, each signal at a respective read power level. At least one of the read power levels is lower than the bait power level, at least one of the read power levels is lower than the simulated-response power level, and at least two of the read power levels are different from each other. A selected response frequency for a tag is monitored for a response from an RFID tag.
US09000891B2
RFID readers and methods for adjusting a query command slot-count parameter Q for use by radio frequency identification (RFID) tag reader in an RFID tag inventory round are provided. A method for adjusting a query command slot-count parameter Q for use by an RFID tag reader includes setting an initial value for Q for a first inventory round, issuing a query command to a population of RFID tags, and monitoring replies from the population of RFID tags. The value of Q is decreased by a first amount if no reply is received, and the value of Q is increased by a second amount different from the first amount if a tag collision reply is received.
US09000878B1
A transformer having a bobbinless winding assembly positioned on a base includes a primary winding having multiple radially-spiraling turns of a wire and a secondary winding including a substantially planar annular disk having a radial gap defined therein. A primary winding having first and second primary windings including multiple radially-spiraling turns of wire with free ends extending from outer turns and a method of forming the same is provided. A secondary winding having a planar annular disk with a radial gap defined therein and a method of forming the same is also provided.
US09000874B2
Disclosed is a planar transformer including a first planar core which is formed of a magnetic substance, a lower secondary winding which is disposed to enclose a first left sill of the first planar core between a first rear sill and a first front sill of the first planar core; a primary winding which is disposed on the lower secondary winding so as to enclose first left and right sills of the first planar core; an upper secondary winding which is disposed on the primary winding to enclose the first left sill of the first planar core; and a second planar core disposed on the upper secondary winding.
US09000872B2
For an information carrier (1) for magnetically attaching to an object (8) to be marked, according to the invention the information carrier (1) is provided with a contact-breaking surface (4), which is connected to a contact surface (2) of the information carrier (1) at an angle, wherein the contact surface (2) enables the information carrier (1) to magnetically adhere to the object (8) to be marked. By tipping the information carrier (1) onto the contact-breaking surface (4) by means of a corresponding device, the information carrier (1) can be removed from the object (8) to be marked.
US09000870B2
A multipolar electrical switch includes at least one central pole housing, which adjoins two adjacent pole housings of the switch. In at least one embodiment of the invention, an electrical switching mechanism for switching an electrical phase current on and off is contained in each of the pole housings respectively. The central pole housing is equipped with a fastening element, which extends through the central pole housing into the two adjacent pole housings, namely in each instance to at most the center of the adjacent pole housings.
US09000865B2
Power-dividing and/or power-combining circuits have inputs, outputs, at least three electrical pathways, and at least three electronic devices, such as amplifiers, with substantially equal input and output reflection At least one of the electronic devices is in each of the electrical pathways. In one embodiment, multiple phase shift components, such as delay lines, are electrically connected to the electronic devices in each of the electrical pathways. These phase shift components are selected so that a vector sum of the reflected signals from the electronic devices to the inputs and/or the outputs is substantially minimized. In another embodiment, a serial bus extends from the inputs/outputs and at least three pathways in the circuit. The serial bus includes serially-connected impedance-providing components positioned among at least three pathways with the impedance-providing components increasing in impedance from one end to the other end of the serial bus in an amount sufficient to produce a substantially equal amount of power to each of the electronic devices and to substantially minimize input and output reflections.
US09000862B2
Various embodiments are directed to isolation devices, systems, methods and various means, for isolating ignition causing signals and/or explosions from hazardous or explosive environments.
US09000850B2
A method and an apparatus for self-calibration of a driving capability and a resistance of an on-die termination are provided. The apparatus includes an output interface physical layer (PHY) and a ring oscillator. The output interface PHY receives an operation voltage. The ring oscillator surrounds the output interface PHY to sense a work temperature or the operation voltage and accordingly outputs a sensing result. The driving capability or the resistance of the on-die termination of the output interface PHY is adjusted according to the sensing result.
US09000833B2
A method for compensating for strain on a MEMS device includes generating a signal indicative of a strain on the MEMS device in a first mode of operating a system including the MEMS device. The method includes compensating for the strain in a second mode of operating the system based on the signal. Generating the signal may include comparing an indicator of a resonant frequency of the MEMS device to a predetermined resonant frequency of the MEMS device. Generating the signal may include comparing a first output of a strain-sensitive device to a second output of a strain-insensitive device and generating an indicator thereof. Generating the signal may include sensing a first capacitive transduction of strain-sensitive electrodes of the MEMS device in the first mode and generating the signal based thereon. The strain-sensitive electrodes of the MEMS device may be disabled in the second mode.
US09000832B1
A switch includes a first switching member and a latch circuit. A first terminal of the first switching member is electrically connected to a power source, while a second terminal thereof is electrically connected to a loading. The latch circuit includes a first transistor and a second transistor which are mutually electrically connected. The first transistor is electrically connected to the first terminal, and the second transistor is electrically connected to the control terminal. By inputting a trigger voltage to the second transistor, the second transistor and the first switching member are conducted, which makes the first transistor become conductive. After the first transistor becoming conductive, the first transistor provides electricity to the second transistor to cause latching effect, and to consequently keep the first switching member conductive.
US09000830B2
The invention relates to a method and to an apparatus for protecting transistors (S1, S3; S2, S4) arranged in at least one path, wherein transistors (S1, S3; S2, S4) connected in series to which an input voltage (Ue) is applied are arranged in a path (2), and the transistors (S1, S3; S2, S4) of a path are alternately switched between a conductive state and a blocking state in order to generate an output voltage (Ua) at the center of the path. In order to prevent both transistors (S1, S3; S2, S4) of a path from triggering, the blocking state of the second transistor (S3; S4) of the path is checked before switching a transistor (S1; S2) into the conductive state, and the switching is released by way of a signal generated during the check.
US09000822B2
A delay circuit includes at least one main inverter configured to receive an input signal and output a delayed output signal and at least one switchable inverter connected in parallel with the main inverter circuit. The switchable inverter is configured to decrease a delay between the input signal and the delayed output signal based on the switchable inverter being turned on.
US09000812B1
An apparatus relating generally to a current steering cell includes a first bleeder circuit, a second bleeder circuit, a steering circuit, and an output circuit. The first bleeder circuit and the second bleeder circuit are coupled to receive a first current-source bias voltage. The steering circuit is coupled to receive a second current-source bias voltage independent from the first current-source bias voltage.
US09000810B2
A quantizer takes an analog signal as input and produces a quantized signal for output. The quantizer includes a shoot-through current detection unit and a feedback unit. The shoot-through current detection unit is configured to detect a shoot-through current flowing through the quantizer. The feedback unit is configured to feed back a signal from the shoot-through current detection unit and control an electric charge stored at an input of the quantizer.
US09000806B2
A device may include a latch activated during a second phase of a clock cycle; a clock gating component to control when a clock signal is to reach the latch; a destination storage element activated during a first phase of the clock cycle, where a logical path exists from the latch to the destination storage element; and a blocking element located in the logical path from the latch to the destination storage element, where the blocking element includes, as a first input, an output of the latch and, as a second input, an output of the clock gating component, and where the blocking element prevents an output value of the latch from changing when the clock gating component is not enabled and does not prevent the output value of the latch from changing when the clock gating element is enabled.
US09000797B2
A TFT-LCD array substrate includes a display area, a peripheral area located at a periphery of the display area, and a connecting device. Wherein, the display area includes a plurality of data lines and gate lines. The peripheral area provides with a first test short bar provided with a plurality of data test lines for transmitting a test signal for the data lines, and a second test short bar provided with a gate test line for transmitting a test signal for the gate lines. The connecting device includes a first connection layer and a second connection layer. The connecting device is disposed at a connection location between one of the data test lines and one of the data lines, or between the gate test line and one of the gate lines. A test method for testing the TFT-LCD array substrate is also provided.
US09000793B2
An apparatus for testing electronic devices is disclosed. The apparatus includes a plurality of probes attached to a substrate; each probe capable of elastic deformation when the probe tip comes in contact with the electronic; each probe comprising a plurality of isolated electrical vertical interconnected accesses (vias) connecting each probe tip to the substrate, such that each probe tip of the plurality is capable of conducting an electrical current from the device under test to the substrate. The plurality of probes may form a probe comb. Also disclosed is a probe comb holder that has at least one slot where the probe comb may be disposed. A method for assembling and disassembling the probe comb and probe comb holder is also disclosed which allows for geometric alignment of individual probes.
US09000784B2
In a conductive conductivity sensor having a probe, which is immersible in a measured medium and which comprises at least two electrodes made of a first, electrically conductive material and at least one probe body made of a second, electrically non-conductive material, the electrodes are at least partially embedded in the probe body and insulated from one another by the probe body, wherein the electrodes and the probe body are embodied as a composite workpiece. There especially exists between the first material and the second material in at least one section of a material transition between the first and the second material a secure bond, especially a bond based on intermolecular interactions or chemical bonds.
US09000782B2
A capacitive measurement device includes: at least one measurement electrode having an active surface; at least one guard made from an electrically conductive material placed adjacent to the measurement electrode(s), the guard being excited up to an alternating electric potential substantially identical to that of the measurement electrodes; and a first electronic device for exciting the electrode(s) and processing the measurement signals from the capacitive coupling of the electrode(s) to an object placed adjacent thereto, the electronic device being at least partially referenced to the electric potential of the guard. The measurement device further includes apparatus for performing another function, placed adjacent to the active surface, and a second electronic device provided for monitoring the apparatus for performing another function, the second electronic device being at least partially referenced to the electric potential of the guard.
US09000775B2
A fill-level measuring device for ascertaining and monitoring fill level of a medium located in the process space of a container by means of a microwave travel time measuring method. The device comprises a measurement transmitter and an antenna unit, which is constructed at least of a hollow conductor and a radiating element A microwave transmissive, process isolating element is inserted for process isolation into the hollow conductor between the measurement transmitter and the horn shaped radiating element contacting the process space. The process isolating element is embodied as a hollow body having at least one tubular hollow body region matched to the shape of the hollow conductor, and a pointed hollow body region neighboring the hollow body region in the direction of the radiating element and having a wall thickness selected based on reflection, or lack thereof, of the microwave signals.
US09000771B2
A vehicle having an electrical system including an electric power generator arranged to selectively provide electric power to an electrical load of the vehicle and to selectively charge a battery of the vehicle. A fault detection system is provided for detecting an open circuit or high resistance fault in a ground circuit. The fault detection system includes a controller that controls a voltage output of the generator so as to either restrict or suspend charging or increase or start charging of the battery by the generator for a designated test period. A determining means determines a current discharge from or charging current into the battery during the test period, wherein if the determined current discharge or charging current is less than a given threshold, then an open circuit or high resistance fault is deemed to be detected in the ground circuit.
US09000769B2
Certain embodiments of the present application describe a process to perform activation of carbon based electrodes in a controlled manner, where the degree of activation is monitored and calculated simultaneously with the ongoing activation process. Such an approach is intended to improve the reproducibility of electrodes that may include, but are not limited to, the following parameters: electrochemical capacitance, electrochemical transfer coefficient, amperiometric response to enzymatic reactions.
US09000767B2
The present embodiments relate to a magnetic resonance system for carrying out magnetic resonance measurements in an intraoral region. The magnetic resonance system includes a magnetic resonance coil element and an intraoral measuring device that measures the position of a number of measuring points situated in the intraoral region.
US09000758B2
Disclosed is a rotation angle detecting device wherein a filling member applied in a second housing section which houses an electromagnetic conversion element is prevented from entering a first housing section which houses a magnet. The rotation angle detecting device (1) is provided with: a rotating member (2); the magnet (3), which is fixed to the rotating member (2) and rotates with the rotation of the rotating member (2); a magnetism detecting package (4) that houses an electromagnetic conversion element (4a), which is disposed to face the magnet (3), and detects the intensity of the magnetic field of the magnet (3) by means of rotation of the magnet (3); a housing (5) having a first housing section (5b) that rotatably houses the rotating member (2), and a second housing section (5d) that houses the magnetism detecting package (4), with a partition (5f) as a reference; a filling member (10), with which the second housing section (5d) is filled such that the magnetism detection package (4) is hermetically housed and held; and a cylindrical metal member (11), which is provided in the first housing section (5b) such that the rotating member (2) is rotatably supported and a part (11a) of the metal member is exposed to the second housing section (5d).
US09000747B2
An amplifier circuit has a voltage input terminal, for receiving Vin, and a voltage output terminal, for outputting Vout. A feedback circuit controls Vout to match Vin. A differential input stage receives Vin and Vout and generates a first output signal. An output stage comprises a pull down circuit for Vout. A main MOSFET is controlled by the first output signal to pull down Vout to match Vin when Vout is above a threshold voltage Vtrans. An auxiliary MOSFET, in parallel with the main MOSFET, is controlled by the first output signal to pull down Vout to match Vin when Vout is below Vtrans. The main MOSFET is turned substantially off when Vout is below Vtrans. A headroom generator coupled between the Vout terminal and a drain of the auxiliary MOSFET allows the auxiliary MOSFET to operate in its active region and pull Vout to ground.
US09000739B2
A soft-start circuit composed of active components and passive components and a soft-start voltage regulator based on this soft-start circuit are disclosed. The soft-start voltage regulator is coupled to a generator, a battery and a starter. When the starter is started, the soft-start voltage regulator receives the voltage of the battery to generate a soft-start signal, enabling the generator to establish a voltage. Further, after the generator established the voltage, the soft-start voltage regulator is shut off and the soft-start signal is outputted.
US09000738B2
An energy supplying device for a load has a direct current source, a number of switching stages, and a control device. The switching stages are connected to the direct current source, the load, and the control device such that the control device can drive the switching stages to selectively connect the load to the direct current source. Each switching stage has a field effect transistor and a number of freewheeling diodes connected in opposition to the respective field effect transistor in parallel. The field effect transistors have a maximum operational threshold frequency. Each freewheeling diode has a recovery time. For each switching stage, the recovery times of the respective freewheeling diodes correspond with the reciprocal value of the threshold frequency of the respective field effect transistor. The control device controls the switching stages at least intermittently such that power is reflected back into the switching stages on the basis of a mismatch.
US09000733B2
A most recent electrostatic capacitance value for a backup capacitor is measured periodically. Each time the most recent electrostatic capacitance value is measured, a charging voltage (a required charging voltage) that is required in order to cause a return operation of a valve from the setting opening at that time to an emergency opening/closing position (for example, the fully closed position) is calculated based on the electrostatic capacitance value that has been measured. If the required charging voltage that has been calculated is higher than the terminal voltage that has been detected, then a value for a charging current value is determined based on the actual degree of opening and the setting opening of the valve, and the backup capacitor is charged until the terminal voltage reaches the required charging voltage.
US09000732B2
The present invention discloses an apparatus for managing a battery pack by reflecting a degradation degree of secondary cells, selecting the secondary cell having a maximum disparate voltage value among calculated disparate voltage values as a degraded cell in the current charging cycle, and updating the information on the degraded cell.
US09000731B2
A battery based power supply assembly is disclosed. The system comprises a discharge initiating device and a plurality of battery modules electrically connected with one another. Each of the battery modules comprises a plurality of battery cells, a discharge load connected in series with the battery cells, a switch coupled between the battery cells and the discharge load, a temperature sensor, and a controller adapted for placing the switch in its electrically connected state upon being driven by the discharge initiating device. The invention further provides a safe method of draining the energy from the power supply assembly disclosed herein.
US09000729B2
Provided is a battery gauging method for a portable terminal including an active matrix organic light emitting diode (AMOLED) display. The battery gauging method may measure a voltage value of a battery, may determine, for each pixel, RGB information associated with image data buffered in a frame buffer, may determine, for each pixel, a preliminary compensation value corresponding to determined RGB information so as to calculate a compensation value by adding preliminary compensation values of all pixels, and then determine a residual quantity of the battery based on the measured voltage value and the compensation value.
US09000720B2
An apparatus for delivering power to an electrically powered medical device includes a package and an electrical coupling feature. The package comprises an interior portion and a wall. The interior portion of the package is able to hold a sterile, electrically powered medical device having a rechargeable battery. The package is able to maintain sterility of the interior portion of the package. The electrical coupling feature may be in communication with the wall of the package and in further communication with the medical device. The electrical coupling feature may be able to deliver power from an external power source to the medical device to charge the battery of the medical device without compromising the sterility of the package or the sterility of the medical device.
US09000719B2
The invention relates to an electric machine (10), particularly a generator or a starter generator for a motor vehicle, comprising a converter (64) which is arranged on a cooling element (53) and composed of semiconductor switching elements (58, 59) actuated synchronously with the phase frequency for rectifying a generator alternating voltage or supplying a motor from a DC voltage source (61). According to the invention, the cooling element (53) has a base plate (55) and cooling fins (54), wherein the ratio of the surface wetted by coolant to the volume of the cooling element (53) ranges from 0.5 to 1.5 [l/mm], preferably from 0.8 to 1.0 [l/mm].
US09000718B2
A battery management system (BMS) in which a battery protection circuit controls a main switch using hardware without software control, thereby coping with troubles in the BMS or software errors.
US09000717B2
An electrical charging system having a rectifier which is supplied with energy via an input. An inverter whose alternating voltage side is connected, via phase conductors, to windings of a rotating field machine and whose direct voltage side can be connected to an energy accumulator to be charged. A first current path section passes current, supplied by the rectifier, into the charging system via the plus terminal or pole of the rectifier and the rotating field machine to the inverter. The first current path section passes the current via phase windings of the rotating field machine, such that the first current path section comprises a first switch, which can selectively interrupt the first current path section. The charging system can operate, by the first switch and at least one phase winding in the first current path section, as a step-up and step-down converter in the direction toward an energy accumulator.
US09000716B2
A hybrid working machine includes a first electric motor performing a power running operation of being driven with supplied electric power and a regenerative operation of generating electric power; a first electric circuit controlling the output of the first electric motor; a battery supplying the first electric motor with the electric power and storing the regenerated electric power from the first electric motor; a charge and discharge circuit controlling the charging current and the discharge current of the battery; and a controller controlling the charge and discharge of the battery for driving the machine. The controller calculates a level representing a proportion by which the output of the battery is limited with respect to each of multiple conditions related to the output of the battery. The controller limits the charging current and the discharge current of the battery based on the calculated levels.
US09000714B2
A photovoltaic module includes: a solar cell module including a plurality of solar cells; a junction box including a dc/dc converter unit to convert the level of DC power supplied from the solar cell module; a plate on one surface of the solar cell module and disposed between the solar cell module and the junction box; and a coupling member attaching and detaching the junction box from the solar cell module.
US09000706B2
A system comprising an actuator and a controller configured to drive the actuator with a pulse width modulated (PWM) signal. The controller is configured to limit a duty cycle of the PWM signal in response to a current supplied by the PWM signal.
US09000693B2
A failure information transmission apparatus includes a transmission circuit and a reception circuit. The transmission circuit transmits a plurality of pieces of failure information related to a plurality of failures as pulse signals different from one another via the same transmission path. The reception circuit receives the pulse signals transmitted by the transmission circuit via the same transmission path and identifies the failure information based on the pulse signal received. If the plurality of failures occurs at the same time, the transmission circuit transmits preferentially transmits failure information with higher priority of transmission.
US09000691B2
Provided is a method of controlling a vibration motor, in which there are provided: a unit that generates a drive signal for generating elliptic motion; a unit that switches the drive signal with a voltage from a power supply, and changes a pulse width of the drive signal; a unit that detects a current flowing in an electromechanical energy conversion element through the switching unit; a unit that detects a position and a velocity of an object to be driven; and a control unit that controls the respective units, and sets the velocity of the object to be driven. The control unit controls a frequency and the pulse width of the drive signal so as to exercise a maximum output characteristic with respect to a target velocity within a range in which the current detected by the current detection unit does not exceed a given limit value.
US09000686B2
It is provided an LED lighting device calibratable to 0 to 100% of wide range about a chromaticity and luminance of a illumination light by a simple configuration, and a driving method for the LED lighting device. The LED lighting device is provided with a first light-emitting unit and a second light-emitting unit differing a color temperature mutually, and a control circuit for executing a cyclic light/quench control of the first light-emitting unit and the second light-emitting unit, and for executing a light control of the first light-emitting unit and the second light-emitting unit by a PNM (Pulse Number Modulation) control in a fixed cycle so as to have a lighting period Ton for lighting/quenching the first light-emitting unit and the second light-emitting unit complementarily, and a quenching period Toff for quenching both the first light-emitting unit and the second light-emitting unit.
US09000681B2
System and method are provided for generating a plurality of channel currents. The system includes a channel reference generator configured to receive a first reference current and generate at least a first channel driving current and a second channel driving current, a first channel current divider configured to receive the first channel driving current and generate a first input current, a second input current, and a third input current, a second channel current divider configured to receive the second channel driving current and generate a fourth input current, a fifth input current, and a sixth input current, a first channel driver configured to receive the first input current, the second input current, and the third input current and generate a first channel current, and a second channel driver configured to receive the fourth input current, the fifth input current, and the sixth input current and generate a second channel current.
US09000680B2
A system and method map dimming levels of a lighting dimmer to light source control signals using a predetermined lighting output function. The dimmer generates a dimmer output signal value. At any particular period of time, the dimmer output signal value represents one of multiple dimming levels. In at least one embodiment, the lighting output function maps the dimmer output signal value to a dimming value different than the dimming level represented by the dimmer output signal value. The lighting output function converts a dimmer output signal values corresponding to measured light levels to perception based light levels. A light source driver operates a light source in accordance with the predetermined lighting output function. The system and method can include a filter to modify at least a set of the dimmer output signal values prior to mapping the dimmer output signal values to a new dimming level.
US09000674B2
An LED driver circuit for controlling direct current supplied to a plurality of serially connected segments of Light Emitting Diodes (LEDs) is disclosed. In one embodiment, the LED driver circuit comprises a self-commutating circuit, which comprises a plurality of current control elements, each current control element having two ends, a first end connected to a different end of each segment along the plurality of serially connected segments of LEDs and a second end connected to a path to ground. The path to ground comprises a sense resistor and the path to ground is shared by the second end of each current control element. Each current control element is coupled to an adjacent current control element by a cross-regulation circuit and controlled by a signal from an adjacent current control element.
US09000673B2
A multi-channel constant current source particularly suitable for driving an array of light-emitting diodes as an illumination apparatus provides a power source stage voltage regulator for providing a variable voltage using pulse width modulation as an input to a plurality of constant current driver channels to regulate the constant current provided. Pulse width modulation thus allows both the power source stage and the constant current driver operating frequencies to be decoupled and individually optimized to maintain efficiency while emulating dimming effects of, for example, incandescent bulbs, over a full range of light output flux. Pulse width modulation can also be employed in the constant current channel drivers to avoid chromaticity shift during dimming.
US09000660B2
Hydro-carbon nanorings may be used, e.g., in power storage power transmission and transportation. Sufficiently cooled, an externally hydrogen doped carbon nanoring may be used to create a radial dipole containment field for electrons rotating in the nanoring. Such nanorings may transmit DC current with little or no loss. Similarly, an internally hydrogen doped carbon nanoring may be used to create a radial dipole containment field for positrons rotating in the nanoring. Virtually lossless transmission of AC current may be achieved by pairing such streams of electrons and positrons in their respective containment fields. Closed rotation of such streams may also be used to efficiently store large amounts of electrical energy. Finally, by selectively accelerating and decelerating pairs of such paired electron and positron streams, which are moving at relativistic speeds, differential momentum may be created to cause physical movement.
US09000658B2
A spark plug in which a front end portion of a ground electrode is positioned outside of a virtual outer circumferential face that is formed by extending a front and outer circumferential face of a center electrode in the axis direction, and positioned on a front end side in the axis direction with respect to a virtual face including a front end face of the center electrode. Further, the equation 1.1≦b/a≦1.6 is satisfied, where “a” (mm) represents a first minimal distance between the front end portion of the center electrode and the front end portion of the ground electrode and, where “b” (mm) represents a second minimal distance between the front end portion of a ceramic insulator and the front end portion of the ground electrode.
US09000657B2
There is provided a cyclotron including: a hollow yoke; first and second poles disposed in the yoke; an ion source that generates an ion; a buncher of which at least a part enters the yoke and which adjusts a density of an ion beam, which is emitted from the ion source, in a traveling direction; and an inflector that deflects an ion beam having passed through the buncher to make the ion beam incident on a median plane.
US09000654B2
An ultrasonic motor includes a vibrator configured to generate an elliptical vibration, a driven member configured to be driven by the vibrator, wherein the driven member is driven according to the elliptical vibration of the vibrator, a holding unit configured to hold the vibrator, and a pressure unit configured to press the vibrator against the driven member, wherein the holding unit includes a first holding member configured to hold the vibrator, and a second holding member configured to press the vibrator against the driven member, and wherein the first holding member and the second holding member are relatively movable in a direction perpendicular to a contact surface of the driven member with the vibrator.
US09000653B2
A transducer array of micromachined ultrasonic transducer elements is connected to a microbeamformer. Driver circuits of the microbeamformer have a first output coupled to a first electrode of a respective transducer element and a second output coupled to a second electrode of the respective transducer element. The driver circuits apply first and second time varying voltage signals to the electrodes, with one voltage signal being time inverted relative to the other. The peak-to-peak voltage applied to the transducer element is 1.75 to 2.0 times the peak-to-peak voltage of either the first or the second time varying voltage signal.
US09000651B2
A method for converting heat to electric energy is described which involves thermally cycling an electrically polarizable material sandwiched between electrodes. The material is heated using thermal energy obtained from: a combustion reaction; solar energy; a nuclear reaction; ocean water; geothermal energy; or thermal energy recovered from an industrial process. An apparatus is also described which includes an electrically polarizable material sandwiched between electrodes and a heat exchanger for heating the material. The heat source used to heat the material can be: a combustion apparatus; a solar thermal collector; or a component of a furnace exhaust device. Alternatively, the heat exchanger can be a device for extracting thermal energy from the earth, the sun, ocean water, an industrial process, a combustion reaction or a nuclear reaction. A vehicle is also described which comprises an apparatus for converting heat to electrical energy connected to an electric motor.
US09000635B2
An alternator is provided with a rectifier including a positive-side and a negative-side heatsink that cool rectifier elements corresponding to each heatsink and a circuit board that holds the positive-side and the negative-side heatsink, wherein one of either the positive-side and the negative-side heatsink or the circuit board is provided with engaging holes, and the other with engaging protrusions that are engaged with the holes.
US09000618B2
A transmission line driver and a method for driving the same are provided, in which a composite current source is provided as an input current source, such that an output voltage is fixed. The composite current source includes an internal current source and an external current source. The composite current source is supplied to a single-ended transmission line driver or a differential transmission line driver, such that the output voltage is fixed.
US09000605B2
A wind-based power generating system provides a wind energy converter for converting wind energy into another form of energy using a lighter-than-air craft configured to produce a positive net lift. The net lift includes both a net aerodynamic lift and a net buoyant lift. A tethering mechanism is configured to restrain the lighter-than-air craft with respect to the ground. The lighter-than-air craft defines an interior volume for containing a lighter-than-air gas, and the lighter-than-air craft has a fore section and an aft section. The tethering system has at least one attachment point on the fore section of the lighter-than-air craft and at least one attachment point on the aft section of the lighter-than-air craft. The lighter-than-air craft provides a stable aerodynamic moment with respect to a yaw axis about a center-of-mass of the lighter-than-air craft. The craft can be formed in a variety of aerodynamic profiles/shapes.
US09000604B2
An apparatus is disclosed for a turbine for generating electrical power from fluid flow comprising a duct with an oblong elevation, intake hoods and vents, aft diffuser cutouts and an oblique face to optimize flow and therefore power characteristics. A unidirectional turbine generator apparatus is also disclosed comprising turbine blades with one or more raked and/or tapered sections, and optionally also with multiple beaded surface features to improve efficiency and performance of the turbine generator. A hydro turbine generator with a single-sided axial-flux magnetic generator is disclosed comprising a hybrid magnetic/anti-friction axial bearing assembly. A multiple turbine generator arrangement is also disclosed comprising multiple unidirectional turbine generators connected to a shore-based electrical distribution system.
US09000598B1
The present disclosure is directed to orientation-independent device configuration and assembly. An electronic device may comprise conductive pads arranged concentrically on a surface of the device. The conductive pads on the device may mate with conductive pads in a device location in circuitry. Example conductive pads may include at least a first circular conductive pad and a second ring-shaped conductive pad arranged to concentrically surround the first conductive pad. The concentric arrangement of the conductive pads allows for orientation-independent placement of the device in the circuitry. In particular, the conductive pads of the device will mate correctly with the conductive pads of the circuitry regardless of variability in device orientation. In one embodiment, the device may also be configured for use with fluidic self-assembly (FSA). For example, a device housing may be manufactured with pockets that cause the device to attain neutral buoyancy during manufacture.
US09000593B2
A substrate for a semiconductor device is provided. The substrate includes a first metal line, a second metal line, a metal support part, a first insulating part, and a second insulating part. The first metal line is electrically connected to a first electrode of the semiconductor device. The second metal line is electrically connected to a second electrode of the semiconductor device and spaced apart from the first metal line. The metal support part is disposed between the first metal line and the second metal line. The first insulating part is disposed between the first metal line and the metal support part and configured to electrically insulate the first metal line from the metal support part. The second insulating part is disposed between the second metal line and the metal support part and configured to electrically insulate the second metal line from the metal support part.
US09000588B2
A method for defining regions with different surface liquid tension properties on a substrate is disclosed. The method includes: providing a substrate with a main surface having a first surface liquid tension property that is at least partially covered with a seed layer; forming at least one micro-bump on the seed layer leaving part of the seed layer exposed; patterning the exposed seed layer to expose part of the main surface; forming at least one closed-loop structure that encloses a region of the main surface and the at least one micro-bump; and chemically treating the main surface of the substrate to provide on a surface of at least one closed-loop structure and the at least one micro-bump a second surface liquid tension property. The second surface liquid tension property is substantially different from the first surface liquid tension property of the main surface and is liquid phobic.
US09000582B2
A power semiconductor module includes: a circuit body having a power semiconductor element and a conductor member connected to the power semiconductor element; a case in which the circuit body is housed; and a connecting member which connects the circuit body and the case. The case includes: a first heat dissipating member and a second heat dissipating member which are disposed in opposed relation to each other while interposing the circuit body in between; a side wall which joins the first heat dissipating member and the second heat dissipating member; and an intermediate member which is formed on the periphery of the first heat dissipating member and connected to the side wall, the intermediate member including a curvature that is projected toward a housing space of the case.
US09000577B2
Some embodiments provide capacitive AC coupling inter-layer communications for 3D stacked modules.
US09000573B2
A package on package structure includes a connection substrate having a main body and electrically conductive posts, the main body includes a first surface and an opposite second surface, and each electrically conductive post passes through the first and second surfaces, and each end of the two ends of the electrically conductive post protrudes from the main body; a first package device arranged on a side of the first surface of the connection substrate; a package adhesive arranged on a side of the second surface of the connection substrate; and a second package device arranged on a side of the package adhesive furthest away from the first package device.
US09000572B2
A semiconductor package substrate may include a first semiconductor chip, a second semiconductor chip, plugs and interconnection terminals. The second semiconductor chip may be arranged on an upper surface of the first semiconductor chip. The first and second semiconductor chips may have corresponding first regions and corresponding second regions. Conductive plugs may be built only in a first region of the first semiconductor chip. Circuitry of the second semiconductor chip may only be electrically connected to the first semiconductor chip through the conductive connectors corresponding to the first regions of the first and second semiconductor chips.
US09000567B2
An object is to provide a compound semiconductor substrate and a surface-treatment method thereof, in which, even after the treated substrate is stored for a long period of time, resistance-value defects do not occur. Even when the compound semiconductor substrate is stored for a long period of time and an epitaxial film is then formed thereon, electrical-characteristic defects do not occur. The semiconductor substrate according to the present invention is a compound semiconductor substrate at least one major surface of which is mirror-polished, the mirror-polished surface being covered with an organic substance containing hydrogen (H), carbon (C), and oxygen (O) and alternatively a compound semiconductor substrate at least one major surface of which is mirror-finished, wherein a silicon (Si) peak concentration at an interface between an epitaxial film grown at a growth temperature of 550° C. and the compound semiconductor substrate is 2×1017 cm−3 or less.
US09000562B2
A method for forming a metal-insulator-metal (MIM) capacitor includes forming a capacitor bottom plate and a metal interconnect feature on a substrate. A dielectric layer having a predetermined thickness is then formed. The dielectric layer has a first portion overlying the capacitor bottom plate and a second portion overlying the metal interconnect feature. The dielectric layer is processed to adjust the thickness of the first portion of the dielectric layer relative the thickness of the second portion of the dielectric layer. Processing can include etching the first portion of the dielectric layer or adding dielectric material to the second portion of the dielectric layer. A capacitor top plate is formed over the first portion of the dielectric layer to complete the MIM structure.
US09000561B2
A patterned ground shield structure is provided. The patterned ground shield structure includes a substrate having a dielectric layer. The patterned ground shield structure also includes a plurality of conductive rings having a plurality of sub conductive rings in the dielectric layer. Further, the patterned ground shield structure includes an interconnection line connecting with all of the sub conductive rings in the dielectric layer. Further, the patterned ground shield structure also includes a ground ring connecting with the interconnection line.
US09000558B2
A packaged integrated circuit includes an integrated circuit having a Radio Frequency (RF) passive element formed therein and a wafer level chip scale flip chip package that contains the integrated circuit. The wafer level chip scale flip chip package includes at least one dielectric layer isolating a top metal layer of the integrated circuit and a package signal connection upon the at least one dielectric layer, wherein the package signal connection partially overlays the RF passive element with respect to a surface of the integrated circuit. The RF passive element may be an inductor, a transformer, a capacitor, or another passive element. The package signal connection may be a conductive ball, a conductive bump, a conductive pad, or a conductive spring, for example. A conductive structure may reside upon the at least one dielectric layer to provide shielding to the RF passive element and may include a plurality of conductive elements or a mesh.
US09000557B2
A device including a first layer of first transistors interconnected by at least one first interconnection layer, where the first interconnection layer includes copper or aluminum, a second layer including second transistors, the second layer overlaying the first interconnection layer, where the second layer is less than about 2 micron thick, where the second layer has a coefficient of thermal expansion; and a connection path connecting at least one of the second transistors to the first interconnection layer, where the connection path includes at least one through-layer via, where the at least one through-layer via is formed through and in direct contact with a source or drain of at least one of the second transistors.
US09000551B2
A GeSi avalanche photodiode (APD includes an anti-reflection structure, a Ge absorption region, and a resonance cavity enhanced (RCE) reflector. The anti-reflection structure includes one or more dielectric layers and a top contact layer which is heavily doped with dopants of a first polarity. The RCE reflector includes: an intrinsic or lightly doped Si multiplication layer, a Si contact layer which is heavily doped with dopants of a second polarity opposite the first polarity, a Si cavity length compensation layer, a buried oxide (BOX) layer, and a Si substrate.
US09000547B2
According to one embodiment, a strain sensor includes a substrate, a lid, a frame, and a sensing unit. The substrate has a first surface. The lid is provided on the first surface. The frame is provided between the substrate and the lid. The frame is nonconductive and includes a magnetic body. The sensing unit is provided inside the frame between the substrate and the lid, and includes a magnetoresistance effect element.
US09000542B2
The present disclosure is directed to a device that includes a substrate and a sensor formed on the substrate. The sensor includes a chamber formed from a plurality of integrated cavities, a membrane above the substrate, the membrane having a plurality of openings, each opening positioned above one of the cavities, and a plurality of diamond shaped anchors positioned between the membrane and the substrate, the anchors positioned between each of the cavities. A center of each opening is also a center of one of the cavities.
US09000541B2
A photoelectric conversion device includes circuit portions disposed on a substrate, a first electrode electrically connected to one of the circuit portions, an optically transparent second electrode opposing the first electrode, and a photoelectric conversion portion disposed between the first electrode and the second electrode. The photoelectric conversion portion has a multilayer structure including a light absorption layer made of a p-type compound semiconductor film having a chalcopyrite structure, an amorphous oxide semiconductor layer, and a window layer made of an n-type semiconductor film.
US09000540B2
The performances of semiconductor elements disposed in a multilayer wiring layer are improved. A semiconductor device includes: a first wire disposed in a first wiring layer; a second wire disposed in a second wiring layer stacked over the first wiring layer; a gate electrode arranged between the first wire and the second wire in the direction of stacking of the first wiring layer and the second wiring layer, and not coupled with the first wire and the second wire; a gate insulation film disposed over the side surface of the gate electrode; and a semiconductor layer disposed over the side surface of the gate electrode via the gate insulation film, and coupled with the first wire and the second wire.
US09000537B2
One method includes performing an etching process through a patterned mask layer to form trenches in a substrate that defines first and second fins, forming liner material adjacent the first fin to a first thickness, forming liner material adjacent the second fin to a second thickness different from the first thickness, forming insulating material in the trenches adjacent the liner materials and above the mask layer, performing a process operation to remove portions of the layer of insulating material and to expose portions of the liner materials, performing another etching process to remove portions of the liner materials and the mask layer to expose the first fin to a first height and the second fin to a second height different from the first height, performing another etching process to define a reduced-thickness layer of insulating material, and forming a gate structure around a portion of the first and second fin.
US09000536B2
The present disclosure relates a Fin field effect transistor (FinFET) device having large effective oxide thickness that mitigates hot carrier injection, and an associated method of formation. In some embodiments, the FinFET device has a conductive channel of a first fin protruding from a planar substrate. The conductive channel has a non-conductive highly doped region located along multiple outer edges of the channel region. A gate region protrudes from the planar substrate as a second fin that overlies the first fin. A gate dielectric region is located between the non-conductive highly doped region and the gate region. The non-conductive highly doped region and the gate dielectric region collectively provide for an effective oxide thickness of the FinFET device that allow a low electric field across gate oxide and less hot carrier injection.
US09000533B2
A semiconductor device having five gate stacks on different regions of a substrate and methods of making the same are described. The device includes a semiconductor substrate and isolation features to separate the different regions on the substrate. The different regions include a p-type field-effect transistor (pFET) core region, an input/output pFET (pFET IO) region, an n-type field-effect transistor (nFET) core region, an input/output nFET (nFET IO) region, and a high-resistor region.
US09000527B2
A semiconductor device is formed in which a first-type doped field effect transistor has a first gate stack that has an end portion with a second gate stack formed for a second-type, complementary doped field effect transistor. Lateral electrical contact is made between the first gate stack and the second gate stack. The lateral electrical contact provides an electrical shunt at the end of the first gate stack.
US09000523B2
An organic light-emitting display device including a TFT comprising an active layer, a gate electrode comprising a lower gate electrode and an upper gate electrode, and source and drain electrodes insulated from the gate electrode and contacting the active layer; an organic light-emitting device electrically connected to the TFT and comprising a pixel electrode formed in the same layer as where the lower gate electrode is formed; and a pad electrode electrically coupled to the TFT or the organic light emitting device and comprising a first pad electrode formed in the same layer as in which the lower gate electrode is formed, a second pad electrode formed in the same layer as in which the upper gate electrode is formed, and a third pad electrode comprising a transparent conductive oxide, the first, second, and third pad electrodes being sequentially stacked.
US09000522B2
An improved finFET and method of fabrication using a silicon-on-nothing process flow is disclosed. Nitride spacers protect the fin sides during formation of cavities underneath the fins for the silicon-on-nothing (SON) process. A flowable oxide fills the cavities to form an insulating dielectric layer under the fins.
US09000520B2
A semiconductor device includes an electrode arranged on a main surface of a semiconductor body and an insulating structure insulating the electrode from the semiconductor body. The insulating structure includes in a vertical cross-section a gate dielectric portion forming a first horizontal interface at least with a drift region of the device and having a first maximum vertical extension between the first horizontal interface and the electrode, and a field dielectric portion forming with the drift region second, third and fourth horizontal interfaces. The second through fourth horizontal interfaces are arranged below the main surface. The third horizontal interface is arranged between the second and fourth horizontal interfaces. A second maximum vertical extension is larger than the first maximum vertical extension and a third maximum vertical extension is larger than the second maximum vertical extension. The electrode only partially overlaps the third horizontal interface.
US09000515B2
A super-junction trench MOSFET with a short termination area is disclosed, wherein the short termination area comprising a charge balance region and a channel stop region formed near a top surface of an epitaxial layer with a trenched termination contact penetrating therethrough.
US09000512B1
An assembler receives a circuit device and a mass of conductive material such as a diode, metal material, etc. The assembler bonds a first facing of a circuit device to a substrate. Adjacent to the circuit device, the assembler bonds a first facing of the mass of conductive material to the substrate. The assembler applies an overmold layer of insulation material over the substrate adjacent the circuit device and the mass of conductive material. Subsequent to applying the overmold layer of insulation material, the assembler provides a conductive link between a second facing of the circuit device and a second facing of the mass of conductive material.
US09000501B2
A semiconductor integrated circuit includes a first semiconductor substrate in which a part of an analog circuit is formed between the analog circuit and a digital circuit which subjects an analog output signal output from the analog circuit to digital conversion; a second semiconductor substrate in which the remaining part of the analog circuit and the digital circuit are formed; and a substrate connection portion which connects the first and second semiconductor substrates to each other. The substrate connection portion transmits an analog signal which is generated by a part of the analog circuit of the first semiconductor substrate to the second semiconductor substrate.
US09000483B2
A semiconductor device includes a substrate, a first fin structure, an electrical contact structure and a gate structure. The first fin structure includes a horizontal fin structure extending along a first direction and a vertical fin structure extending along a second direction. The substrate has a first region and a second region. A portion of the horizontal fin structure and the vertical fin structure are disposed in the first region, and the electrical contact structure directly covers the horizontal fin structure and the vertical fin structure within the first region. The gate structure partially overlaps the horizontal fin structure within the second region.
US09000480B2
A reverse-conducting semiconductor device (RC-IGBT) including a freewheeling diode and an insulated gate bipolar transistor (IGBT), and a method for making the RC-IGBT are provided. A first layer of a first conductivity type is created on a collector side before a second layer of a second conductivity type is created on the collector side. An electrical contact in direct electrical contact with the first and second layers is created on the collector side. A shadow mask is applied on the collector side, and a third layer of the first conductivity type is created through the shadow mask. At least one electrically conductive island, which is part of a second electrical contact in the finalized RC-IGBT, is created through the shadow mask. The island is used as a mask for creating the second layer, and those parts of the third layer which are covered by the island form the second layer.
US09000468B2
A light emitting diode includes a conductive layer, an n-GaN layer on the conductive layer, an active layer on the n-GaN layer, a p-GaN layer on the active layer, and a p-electrode on the p-GaN layer. The conductive layer is an n-electrode.
US09000458B2
A light-emitting element with which a reduction in power consumption and an improvement in productivity of a display device can be achieved is provided. A technique of manufacturing a display device with high productivity is provided. The light-emitting element includes an electrode having a reflective property, and a first light-emitting layer, a charge generation layer, a second light-emitting layer, and an electrode having a light-transmitting property stacked in this order over the electrode having a reflective property. The optical path length between the electrode having a reflective property and the first light-emitting layer is one-quarter of the peak wavelength of the emission spectrum of the first light-emitting layer. The optical path length between the electrode having a reflective property and the second light-emitting layer is three-quarters of the peak wavelength of the emission spectrum of the second light-emitting layer.
US09000457B2
The present application provides a multi-dimensional light-emitting device electrically connected to a power supply system. The multi-dimensional light-emitting device comprises a substrate, a blue light-emitting diode array and one or more phosphor layers. The blue light-emitting diode array, disposed on the substrate, comprises a plurality of blue light-emitting diode chips which are electrically connected. The multi-dimensional light-emitting device comprises a central area and a plurality of peripheral areas, which are arranged around the central area. The phosphor layer covers the central area. When the power supply system provides a high voltage, the central area and the peripheral areas of the multi-dimensional light-emitting device provide a first light and a plurality of second lights, respectively. The first light and the second lights are blended into a mixed light.
US09000444B2
A thin film transistor (TFT) array substrate is provided that includes a TFT on a substrate. The TFT can include an active layer, gate electrode, source electrode, drain electrode, first insulating layer between the active layer and the gate electrode, and second insulating layer between the gate electrode and the source and drain electrodes. A pixel electrode is disposed on the first and second insulating layers. A capacitor including a lower electrode is disposed on a same layer as the gate electrode and an upper electrode. A third insulating layer directly between the second insulating layer and the pixel electrode and between the lower electrode and the upper electrode. A fourth insulating layer covers the source electrode, the drain electrode, and the upper electrode, and exposes the pixel electrode and can further expose a pad electrode.
US09000443B2
An object is to provide a light-emitting device or a flexible light-emitting device having low surface temperature, a long lifetime, and high reliability. Another object is to provide a simple method of manufacturing the light-emitting device or the flexible light-emitting device. Provided is a light-emitting device or a flexible light-emitting device which includes: a substrate having a light-transmitting property with respect to visible light; a first adhesive layer provided over the substrate; an insulating layer located over the first adhesive layer; a light-emitting element comprising a first electrode formed over the insulating layer, a second electrode facing the first electrode, and a layer including an organic compound having a light-emitting property between the first electrode and the second electrode, a second adhesive layer formed over the second electrode; a metal substrate provided over the second adhesive layer; and a heat radiation material layer formed over the metal substrate.
US09000441B2
A thin film transistor whose threshold voltage can be controlled and which has a favorable switching characteristic is provided. The thin film transistor includes a first gate electrode layer; a semiconductor layer; a first gate insulating layer provided between the first gate electrode layer and the semiconductor layer; source electrode and drain electrode layers which are provided over the semiconductor layer; a conductive layer covered by the first gate insulating layer and the semiconductor layer and provided so as to overlap with part of the first gate electrode layer; a second gate insulating layer provided so as to cover at least a back channel portion of the semiconductor layer; and a second gate electrode layer provided over the second gate insulating layer so as to overlap with the back channel portion of the semiconductor layer.
US09000435B1
A display device and a testing line repairing method thereof is provided herein and the method comprises steps of: cutting off a connection between a first input end of a first thin film transistor (TFT), a first output end and a testing signal input line; and connecting a first dummy line and a testing signal output line by a laser welding method. The width-to-length ration in the display device of the present disclosure won't be varied and an abnormal display in the light-on testing won't happen.
US09000434B2
A semiconductor device including a semiconductor substrate having a surface including an active semiconductor device including one of a laser and a photodiode; and a visual indicator disposed on the semiconductor body and at least adjacent to a portion of said active semiconductor device, the indicator having a state that shows if damage to the active semiconductor device may have occurred.
US09000426B2
A method of manufacturing an organic light-emitting display device includes providing a substrate which comprises thin-film transistors (TFTs), and forming a planarization layer over the substrate. The planarization layer comprises a first planarization portion and a plurality of second planarization portions. The method further includes forming a plurality of first electrodes over the planarization layer, forming an organic light-emitting layer over each of the first electrodes, and forming a second electrode over the organic light-emitting layer. The forming of the planarization layer includes forming the first planarization portion which defines a plurality of first openings and forming one of the second planarization portions in each of the first openings.
US09000424B2
An OLED display is disclosed which included gate wires provided on a substrate and extended in a first direction, data wires provided on the gate wires and extended in a second direction that crosses the first direction; a pixel circuit including first thin film transistors respectively connected to the gate wires and the data wires; and an organic light emitting diode connected to the pixel circuit. The thin film transistor includes a first active layer provided on the substrate to connect the data wires and the organic light emitting diode, and includes a channel area, a source area, and a drain area. The source area and the drain area doped with an impurity and a first gate electrode is not doped with the impurity and provided on the first active layer, interposing sequentially layered first and second insulation layers therebetween.
US09000417B1
Multi-source/drain Spatial Wavefunction Switched (SWS) field-effect transistors (FETs) are configured to serve as 1-bit and 2-bit static random access memory (SRAM) and dynamic random access memory (DRAM) cells. The SWS-FET transport channel comprises of multiple asymmetric coupled wells which are contacted via more than one sources and drains.
US09000414B2
An object of the present invention is to provide a light emitting diode having a heterogeneous material structure and a method of manufacturing thereof, in which efficiency of extracting light to outside is improved by forming depressions and prominences configured of heterogeneous materials different from each other before or in the middle of forming a semiconductor material on a substrate in order to improve the light extraction efficiency.
US09000411B2
Various embodiments of the present invention are direct to nanoscale, reconfigurable, two-terminal memristor devices. In one aspect, a device (400) includes an active region (402) for controlling the flow of charge carriers between a first electrode (104) and a second electrode (106). The active region is disposed between the first electrode and the second electrode and includes a storage material. Excess mobile oxygen ions formed within the active region are stored in the storage material by applying a first voltage.
US09000410B2
According to one embodiment, a nonvolatile memory device includes a first conductive unit, a second conductive unit, and a memory layer. The memory layer is provided between the first conductive unit and the second conductive unit. The memory layer is capable of reversibly transitioning between a first state with a low resistance and a second state with a higher resistance than the first state due to a current supplied via the first conductive unit and the second conductive unit. The memory layer has a chalcopyrite structure.
US09000406B2
A solid state light source module includes two solid state light sources, a light combining device for combining the lights from the two sources, a color wheel receiving the combined light and alternatingly outputting at least two primary color lights, a sync signal generator coupled to the color wheel for generating a periodic sync signal, and a controller for supplying a drive signal to each solid state light sources based on the sync signal. During at least one sub-period of the period, one of the two solid state light sources is turned on by its drive signal and the other one is kept in an inactive state by its drive signal.
US09000402B2
An LPP EUV light source includes a vacuum chamber 12 that is maintained in a vacuum environment; a gas jet device 14 that forms a hypersonic steady gas jet 1 of the target substance inside the vacuum chamber so as to be collected; and a laser device 16 that collects and radiates a laser beam 3 to the hypersonic steady gas jet, wherein plasma is produced by exciting the target substance at the light collecting point 2 of the laser beam and EUV light 4 is emitted therefrom.
US09000401B2
A fiber optic dosimeter probe for sensing radiation dose including an optical fiber having a free end and a sensitive end, a window having a sensitive side and a rear side; a radiation sensitive layer between the sensitive end of the optical fiber and a sensitive side of the window, the radiation sensitive layer being made of a material having an optical property that changes with absorbed radiation dose, an amount of the material corresponding to a predetermined sensitivity to radiation; wherein the window and the optical fiber have a near water equivalent interaction with radiation and are MR compatible.
US09000398B2
An external dental accessory sanitization device is configured for receiving and sanitizing a dental accessory, such as a brush, flosser, pic or other dental accessory. The sanitization device is configured to sanitize the dental accessory using one or a combination of ultraviolet light and/or sound waves. The device can be configured for sanitizing one or a plurality of dental accessories therein.
US09000387B2
A radiation detector, in particular an X-ray radiation detector, in the form of a flat-panel detector, may comprise a scintillator layer applied to a substrate and comprising elongated needles made from a scintillator material forming the scintillator layer, and an actively readable pixel array composed of photodiodes, wherein the thickness of the scintillator layer may be in the range of 900 μm-2500 μm, and wherein the angle at which the needles stand relative to the pixel array, starting from 90° in the center of the detector, may decrease with increasing distance from the center of the detector.
US09000385B2
Method and apparatus for extending a count rate capability of a detector array. The method includes receiving photons at a detector array, counting the photons that are above a first energy threshold using a first counter, counting the photons that are above a different second energy threshold using a second counter, and calculating a pile-up estimate using the photon counts from the first and second counters.
US09000367B2
Provided is a method for evaluating a polymer material, wherein the state of dispersion of a filler in a polymer material can be quickly and quantitatively evaluated.The method for evaluating a polymer material which is a polymer material containing the polymer compound and the filler and of which at least an upper surface is a flat surface. The polymer material 1 is cut in a direction at an angle α of 1 to 60° with respect to the surface of the polymer material using a focused ion beam (FIB) 10, and a smooth surface 1A of the polymer material, formed by the cutting, is then photographed in a direction perpendicular to the smooth surface.
US09000358B2
Disclosed are systems and methods for monitoring drilling fluid components in real time. One system includes solids control equipment fluidly coupled to a borehole and configured to receive drilling fluid from the borehole, the solids control equipment having a first optical computing device arranged adjacent the inlet and configured to optically interact with the drilling fluid as it enters the solids control equipment and thereby generate a first output signal corresponding to a characteristic of the drilling fluid, a second optical computing device arranged adjacent the outlet and configured to optically interact with the drilling fluid as it exits the solids control equipment and thereby generate a second output signal corresponding to the characteristic of the drilling fluid, and a signal processor communicably coupled to the first and second optical computing devices and configured to receive the first and second output signals and provide a resulting output signal.
US09000353B2
A nanowire array is described herein. The nanowire array comprises a substrate and a plurality of nanowires extending essentially vertically from the substrate; wherein: each of the nanowires has uniform chemical along its entire length; a refractive index of the nanowires is at least two times of a refractive index of a cladding of the nanowires. This nanowire array is useful as a photodetector, a submicron color filter, a static color display or a dynamic color display.
US09000345B2
The present invention provides an ambient light sensing module, which comprises a sawtooth signal generating circuit, an optical sensing unit, and a comparing unit. The sawtooth signal generating circuit produces a sawtooth signal. The optical sensing unit senses a light source and produces a light-sensing signal. The comparing unit produces a pulse-width modulation (PWM) signal related to the intensity of the light source according to the light-sensing signal and the sawtooth signal so that the PWM signal can be used as the control signal of the electronic device. The ambient light sensing module further comprises at least a fuse for determining a processing parameter. A signal processing unit processes the light-sensing signal according to the processing parameter for outputting a converting signal. The comparing unit compares the converting signal with the sawtooth signal for producing the PWM signal. An adjusting unit produces an adjusting signal according to the PWM signal and the light intensity or according to the converting signal and the light intensity for controlling a trimming unit to trim the fuse and thus modifying the processing parameter.
US09000343B2
The present invention relates to a solid-state imaging apparatus including a first substrate having a plurality of photoelectric conversion units and a second substrate having a plurality of readout circuits. The first substrate is provided with a plurality of first conductive patterns that are electrically separated from one another and the second substrate is provided with a plurality of second conductive patterns that are electrically separated from one another. The first conductive patterns each include a first partial pattern extending in a first direction. The second conductive patterns each include a partial pattern extending in a second direction different from the first direction. The first partial pattern has a length extending in the first direction longer than a length thereof in the second direction.
US09000336B2
A device for hardening the surface of a workpiece, wherein an energy supply part and a working part each include a magnetic core, wherein the magnetic cores are at a small distance from each other such that electrical energy is transmitted contactlessly from the energy supply part of the inductor to the working part of the inductor, and wherein the working part includes a heating conductor branch for inductive heating of a section of the surface of the workpiece; a control instrument coupled to the inductor, wherein the control instrument displaces the working part relative to the surface to be hardened and relative to the energy supply part, and wherein the magnetic core of the working part is displaced relative to the magnetic core of the energy supply part; and an electrical energy supply connected to the energy supply part of the inductor.
US09000333B2
The installation (10) is adapted for the heat treatment of objects, such as plastic preforms (17), and comprises a reflective device exhibiting a plurality of elongated and opened IR-reflective cavities stacked one onto the other according to a stacking axis and arranged to lodge elongated IR lamps (16) within, where the aperture of each cavity faces generally a main axis parallel to the stacking axis along which the object would be placed. The reflective device (20) further comprises protrusions separating the cavities one to the other and extending generally transversal/transverse to the stacking axis, the reflective device being made as at least one integral block of a heat-conductive material. The cavities may each comprise a curved bottom portion and two opposite side surfaces provided with respective longitudinal breaks of slope at a junction with the curved bottom.
US09000329B2
A system and method for stabilizing a welding arc is disclosed. The method of initiating the arc includes the steps of defining a wire feed speed based on a user selected wire feed speed and then abruptly reducing the wire feed speed before the wire feed speed reaches a relatively stabilized speed for welding, thereby allowing a welding arc to initiate and propagate to a generally steady state.
US09000325B2
A phenomenon where a depicted pattern becomes unclear owing to a rotational runout of a roller mold in the direction of a rotary shaft is suppressed while restraining an increase in the cost. For the purpose of achieving the above, a roller mold manufacturing device (1) is provided with an electron beam irradiation device (2); a mask (3) which has an opening that allows passage of some of electron beams, and which forms a plurality of beams that perform simultaneous depiction on a resist; a rotation drive device (4) which rotates a roller mold (100) around a rotary shaft (8); a displacement amount detection sensor (5) which detects a rotational runout displacement amount of the roller mold (100) in the direction of the rotary shaft (8); a control device (6); and an actuator (7) which, based on a control signal from the control device (6), allows a depiction position by the electron beams to follow the displacement of the roller mold (100) in the direction of the rotary shaft (8), wherein misalignment of an exposed position of the resist, which is caused by rotational runout displacement of the roller mold (100) in the direction of the rotary shaft (8), is suppressed.
US09000318B2
Identification of a material composition. The material composition is configured with a color additive that is embedded or otherwise not visible. The color additive identifies the specific material composition. A discrete section or sub-section of the material is deformed such that the embedded color additive is made visible in the optical spectrum, after which the discrete section or sub-section may be sorted for recycling.
US09000283B1
A guitar slide or other musical instrument string-contacting component has a core that consists essentially of a metal composition which is susceptible to the formation of nitrides and carbides of the metal composition upon proper exposure to carbon and nitrogen. A diffusion layer circumscribes the core and consists essentially of nitrides and carbides of the metal composition. A compound layer circumscribes the diffusion layer and consists essentially of the metal composition, nitrogen, and oxygen. In one physical embodiment, the guitar slide includes a generally tubular body having a conical outer surface tapering downward from a first open finger receiving end to a second smaller end. The outer surface and the inner surface are both preferably conical. In another physical embodiment, the guitar slide is provided with a domed end.
US09000279B1
A novel maize variety designated X18D814 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 X18D814 with another maize plant. Methods for producing a maize plant containing in its genetic material one or more traits introgressed into X18D814 through backcross conversion and/or transformation, and to the maize seed, plant and plant part produced thereby. This invention relates to the maize variety X18D814, the seed, the plant produced from the seed, and variants, mutants, and minor modifications of maize variety X18D814. This invention further relates to methods for producing maize varieties derived from maize variety X18D814.
US09000278B1
A novel maize variety designated X13D129 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 X13D129 with another maize plant. Methods for producing a maize plant containing in its genetic material one or more traits introgressed into X13D129 through backcross conversion and/or transformation, and to the maize seed, plant and plant part produced thereby. This invention relates to the maize variety X13D129, the seed, the plant produced from the seed, and variants, mutants, and minor modifications of maize variety X13D129. This invention further relates to methods for producing maize varieties derived from maize variety X13D129.
US09000274B2
The present invention is in the field of soybean variety OW1011073 breeding and development. The present invention particularly relates to the soybean variety OW1011073 and its progeny, and methods of making OW1011073.
US09000273B2
The present invention is in the field of soybean variety H11016622-2 breeding and development. The present invention particularly relates to the soybean variety H11016622-2 and its progeny, and methods of making H11016622-2.
US09000258B2
The present invention relates to a Xanthomonas campestris pv. campestris (Xcc) resistant Brassica plant, and seeds, fruits and or plant parts thereof, and to methods for preparation thereof. Specifically, the present invention relates to a Xcc resistant Brassica oleracea plant, and seeds, fruits and/or plant parts thereof, and methods for preparation thereof. Further, the present invention relates to Quantitative Trait Loci (QTL's) providing the present Xcc resistance and molecular markers, specifically Random Amplified Microsatellite Polymorphism (RAMP) markers, for identifying the present QTL's.
US09000257B2
Described herein is the generation of Fah+/− heterozygote pigs by homologous recombination and somatic cell nuclear transfer, and a method for producing Fah−/− homozygote pigs. The Fah-deficient pigs of the disclosure can be used for a variety of research and therapeutic purposes, such as for the expansion of human hepatocytes, and as large animal models of hereditary tyrosinemia type 1, cirrhosis and hepatocellular carcinoma.
US09000254B2
A disposable diaper is disclosed having reduced bulk, especially in the back waist region. Due to an opaque topsheet and a backsheet having a relatively high percentage of printed surface area, the diaper has reduced see-through even in those areas of the back waist region where no absorbent core is comprised.
US09000247B2
A method of forming mixed xylenes from a heavy reformate using a dealkylation-transalkylation system includes the step of introducing both a heavy reformate containing methyl ethyl benzenes and tri-methyl benzenes and that is sufficiently free of toluene and a hydrogen-containing material into the dealkylation stage such that the heavy reformate and the hydrogen-containing material intermingle and contact the hydrodealkylation catalyst. The dealkylation-transalkylation system includes dealkylation, non-aromatic product gas separations and transalkylation stages. Toluene forms from the reaction of methyl ethyl benzenes and hydrogen in the presence of the hydrodealkylation catalyst. The method also includes the step of introducing a dealkylated heavy reformate into the transalkylation stage such that the dealkylated heavy reformate contacts a transalkylation catalyst, forming a transalkylation stage product mixture includes mixed xylenes.
US09000241B2
The disclosure describes a process for dehalogenation of chlorofluorocompounds. The process comprises contacting a saturated chlorofluorocompound with hydrogen in the presence of a catalyst at a temperature sufficient to remove chlorine and/or fluorine substituents to produce a fluorine containing terminal olefin.
US09000235B2
Recovery of ethanol from a crude ethanol product obtained from the hydrogenation of acetic acid using an extractive distillation column. The column yields a residue that comprises ethanol, acetic acid, and the extractive agent. The extractive agent may be water and may be separated from the residue and returned to the extractive distillation column.
US09000234B2
The present invention relates to a catalyst having an amorphous support and one or more active metals. The amorphous support may comprise a support material and an amorphous support modifier, which adjusts the acidity of the support material. In preparing the amorphous catalyst, post-synthesis treatment, i.e. calcination, may be used to adjust the catalyst performance while converting acetic acid to ethanol.
US09000220B2
The invention relates to the synthesis of tetraphenol-substituted structures, in particular meta-substituted xylenes. Said tetraphenol-type structures are reacted to obtain organic phosphorus compounds, in particular organophosphites. The invention further relates to the production of catalytically active compositions which contain transition metals in addition to the aforementioned organic phosphorus compounds. According to another subject matter of the invention, said catalytically active compositions are used in chemical reactions with small molecules, e.g. HCN, CO, hydrogen, and amines.
US09000217B2
A process for preparing high molecular weight acyclic polyamines comprising providing a reaction mixture that includes at least a first component comprising a first organic, nitrogen-containing compound that contains at least two non-tertiary amine groups separated from one another by a ternary or higher carbon atom spacing that can be transaminated in the presence of a hydrogenation/dehydrogenation catalyst to form a mixture of higher molecular weight, acyclic polyamines while minimizing the formation of cyclic polyamines.
US09000211B2
This invention provides a method for producing α,β-unsaturated carboxylic acid esters in high yield from acetone cyanohydrin and sulfuric acid through the separation and concurrent catalytic conversion of reaction side products to additional α,β-unsaturated carboxylic acid ester product. The catalyst comprises at least one Group IA element and may include a porous support and/or a promoter element selected from at least one of phosphorous, boron, titanium, zinc, zirconium, tin, bismuth, cerium, and alkaline earth metals. The method for producing methacrylic acid esters, such as methylmethacrylate (MMA), comprises the steps of: i) providing an alkyl alcohol and an organic traction comprising an alkyl methacrylate, an alkyl α-hydroxyisobutyrate and an alkoxyisobutyrate; ii) vaporizing at least a portion of the organic fraction and at least a portion of the alkyl alcohol; iii) contacting the vaporized organic fraction and alcohol with a catalyst comprising at least one element selected from the group consisting of lithium, sodium, potassium, rubidium, cesium and francium, to convert the alkyl ahydroxyisobutyrate and alkyl alkoxyisobutyrate to additional alkyl methacrylate and produce a mixture comprising alkyl methacrylate, methacrylic acid, alkyl alcohol, and water.
US09000207B2
A method for producing a silica-supported catalyst comprising Mo, V. Nb, and a component X (Sb and/or Te) to be used in a vapor phase catalytic oxidation or ammoxidation of proprane, comprising the steps of: (I) preparing a raw material mixture solution by mixing Mo, V, Nb, component X, a silica sol, and water; (II) obtaining a dry powder by drying the raw material mixture solution; and (III) obtaining a silica-supported catalyst by calcining the dry powder, wherein the silica sol contains 10 to 270 wt ppm of nitrate ions based on SiO2.
US09000196B2
Processes are described for making epoxidized fatty acid esters from epoxidized natural fats and oils, wherein low moisture fats and oils are identified and selected or made and used in a transesterification process. The products undergo phase separation, and reduced molar excesses of alcohol may be employed compared to processes not employing a low moisture feedstock.
US09000184B2
Cyclohexane-1,2′-naphthalene-1′,2″-imidazole compounds, therapeutically acceptable salts thereof, processes for preparation thereof, therapeutic uses of such compounds for treating Aβ-related pathologies such as Down's syndrome, β-amyloid angiopathy, Alzheimer's disease, memory loss, attention deficit symptoms associated with Alzheimer's disease, neurodegeneration associated with diseases such as Alzheimer's disease or dementia including dementia of mixed vascular and degenerative origin, pre-senile dementia, senile dementia and dementia associated with Parkinson's disease, progressive supranuclear palsy or cortical basal degeneration, methods of therapy using such compounds, and pharmaceutical compositions containing such compounds.
US09000171B2
An organic electroluminescence (EL) material and an organic EL device, the organic EL material being represented by Formula 1, below:
US09000170B2
A process for the preparation of a tetracarboxynaphthalenediimide compound disubstituted with heteroaryl groups having general formula (I), comprising the reaction of at least one disubstituted N,N′-dialkyl-1,5,8-tetracarboxynaphthalenediimide with at least one heteroaryl compound. Said tetracarboxynaphthalenediimide compound disubstituted with heteroaryl groups can be advantageously used as monomer in the synthesis of semiconductor polymers which can be advantageously used in the construction of organic field effect transistors (OFET) or of organic thin film transistors (OTFT).
US09000169B2
The present invention provides a new compound and an organic electronic device using the same. The organic electronic device according to the present invention exhibits excellent properties in views of efficiency, driving voltage and a life span.
US09000161B2
The present invention is related to processes for preparing chiral substituted pyrazolyl pyrrolo[2,3-d]pyrimidines of Formula III, and related synthetic intermediate compounds. The chiral substituted pyrazolyl pyrrolo[2,3-d]pyrimidines are useful as inhibitors of the Janus Kinase family of protein tyrosine kinases (JAKs) for treatment of inflammatory diseases, myeloproliferative disorders, and other diseases.
US09000160B2
2-Amino-5,8-dialkoxy[1,2,4]-triazolo[1,5-c]pyrimidines are manufactured from 4-chloro-2,5-dialkoxypyrimidines in a process that avoids hydrazine and cyanogen halide.
US09000157B2
The present invention relates to an organic electroluminescence device containing a light emitting metallic compound of Chemical Formula 1. In the Chemical Formula 1, M is selected from Ir, Pt, Rh, Re, and Os, and m is 2, provided that m is 1 when M is Pt.
US09000156B2
The present invention provides a process that enables a substituted methylamine compound which is useful as an intermediate for the production of agricultural chemicals and medicines, to be produced easily, with good yield, and at low cost, and also provides a production intermediate thereof. The process comprises a step of reacting a hexamethylenetetraammonium salt compound represented by a formula (I) with a base to obtain an N-methylidene-substituted methylamine oligomer represented by a formula (II) or a mixture of two or more of the oligomers, and a step of hydrolyzing the N-methylidene-substituted methylamine oligomer represented by formula (II) or the mixture of two or more of the oligomers in the presence of an acid. (wherein A represents an organic group that is either a hydrocarbon group or a heterocyclic group, or said organic group that has a substituent, R represents a hydrogen atom, an organic group that is either a hydrocarbon group or a heterocyclic group, or said organic group that has a substituent, L represents a halogen atom and the like, and n represents an integer of 2 to 20)
US09000151B2
The present invention includes compounds having structural formula (I): or salts or solvates thereof. These compounds are useful as sweet flavor modifiers. The present invention also includes compositions comprising the present compounds and methods of enhancing the sweet taste of compositions.
US09000150B2
The present invention relates to a process for the preparation of pure meropenem trihydrate.
US09000149B2
The present invention relates to mixtures including hydrophobic microparticles comprising a positively charged polymer (e.g. a polysaccharide such as chitosan) non-covalently bound to an anionic or non-ionic surfactant such as lecithin. The mixtures are useful for reducing cholesterol of an animal, for example a bird such as a chicken or any type of mammal. Methods of manufacture and use of the mixtures are also disclosed herein.
US09000147B2
The invention relates to compositions of nicotinoyl ribosides and nicotinamide riboside derivatives and their methods of use. In some embodiments, the invention relates to methods of making nicotinoyl ribosides. In some embodiments, the invention relates to pharmaceutical compositions and nutritional supplements containing a nicotinoyl riboside. In further embodiments, the invention relates to methods of using nicotinoyl ribosides and nicotinamide riboside derivatives that promote the increase of intracellular levels of nicotinamide adenine dinucleotide (NAD+) in cells and tissues for improving cell and tissue survival.
US09000141B2
Disclosed herein is a method for identifying flavivirus cross-reactive epitopes. Also provided are flavivirus E-glycoprotein cross-reactive epitopes and flavivirus E-glycoprotein cross-reactive epitopes having reduced or ablated cross-reactivity (and polypeptides comprising such epitopes), as well as methods of using these molecules to elicit an immune response against a flavivirus and to detect a flaviviral infection.
US09000132B2
The invention provides isolated anti-Lp-PLA2 antibodies that bind to Lp-PLA2. The invention also encompasses compositions comprising an anti-Lp-PLA2 antibody. These compositions can be provided in an article of manufacture or a kit. Another aspect of the invention is an isolated nucleic acid encoding an anti-Lp-PLA2 antibody, as well as an expression vector comprising the isolated nucleic acid. Also provided are cells that produce the anti-Lp-PLA2 antibodies. The invention encompasses a method of producing the anti-Lp-PLA2 antibodies. Other aspects of the invention are a method of detecting an Lp-PLA2 in a subject.
US09000131B2
This disclosure provides antibodies that specifically bind to and typically neutralize botulinum neurotoxins (e.g., BoNT/A, BoNT/B, BoNT/E, etc.) and the epitopes bound by those antibodies. The antibodies and derivatives thereof and/or other antibodies that specifically bind to the neutralizing epitopes provided herein can be used to neutralize botulinum neurotoxin and are therefore also useful in the treatment of botulism.
US09000130B2
Cysteine engineered antibodies comprising a free cysteine amino acid in the heavy chain or light chain are prepared by mutagenizing a nucleic acid sequence of a parent antibody and replacing one or more amino acid residues by cysteine to encode the cysteine engineered antibody; expressing the cysteine engineered antibody; and isolating the cysteine engineered antibody. Certain highly reactive cysteine engineered antibodies were identified by the PHESELECTOR assay. Isolated cysteine engineered antibodies may be covalently attached to a capture label, a detection label, a drug moiety, or a solid support.
US09000124B2
A polypeptide or multimeric polypeptide construct having the ability to bind to cMet or a complex comprising cMet and HGF, and methods for use are disclosed.
US09000120B2
Epoxy adhesive compositions contain a heat-activatable catalyst. The heat-activatable catalyst includes a tertiary amine catalyst and a novolac resin that has a weight average molecular weight of at least 3000. One-component epoxy adhesive formulations that contain the heat-activatable catalyst have unexpectedly good storage stability.
US09000117B2
The present disclosure discloses a silicon-sulfur polymer, a solid electrolyte comprising the silicon-sulfur polymer, and a corresponding solid-state lithium-ion battery. The silicon-sulfur polymer of the present disclosure is a polymer compound comprising both an inorganic backbone-chain structure and an organic side-chain structure, and has the characteristics of both the organic polymer and the inorganic polymer as well as many unique properties. Therefore, the solid electrolyte formed by the silicon-sulfur polymer and the solid-state lithium-ion battery thereof have many good characteristics including a good lithium-ion-conduction capability, better thermal endurance, a wider range of operating temperatures, and better thermostability.
US09000116B2
A blow molding ethylene resin composition satisfies the following requirements [a], [b], [c] and [d] at the same time: [a] the melt flow rate (MFR) at a temperature of 190° C. under a load of 21.6 kg is in the range of 1.0 to 15 g/10 min; [b] the density is in the range of 955 to 970 kg/m3; [c] the number of methyl branches per 1000 carbon atoms is less than 0.1 according to 13C-NMR; [d] the tensile impact strength measured at −40° C. in accordance with JIS K 7160 is not less than 270 kJ/m2.
US09000114B2
A process for continuously mixing at least two fluid streams and splitting the stream of the mixture into at least two partial streams, comprising a) providing streams of the at least two fluids via separated conduits; b) combining the streams of the fluids and forming a homogeneous mixture; c) measuring the pressure in the conduit conveying the mixture of the fluids; d) splitting the stream of the mixture of the fluids into at least two partial streams and feeding each of the partial streams to a conduit equipped with a flow control device controlled by a controller; and e) adjusting the flow rates of the partial streams of the mixture of the fluids by feeding the pressure information measured in step c) as process variable to the controllers controlling the flow control devices, a process for feeding a mixture of at least two fluids via at least two feeding points, an apparatuses for carrying out such processes and a process for polymerizing olefins.
US09000103B2
A composition of matter comprising an interpenetrating polymer network of a combination of a silanol-containing polysiloxane phase and a silylated triglyceride oil phase. The two phases are mixed and covalently bound to each other via siloxane crosslinks. A method for producing interpenetrating polymer networks. The method comprises providing triglycerides from oils or fats and reacting the triglycerides with a reactive silane to form a silylated triglyceride oil. The silylated triglyceride oil and a silanol terminated polysiloxane are emulsified with water in a predetermined ratio. Thereafter, crosslinking agents are added and the water is removed from the emulsions providing siloxane crosslinks between the two intimately mixed immiscible phases.
US09000101B2
The disclosure describes a neat, one-pot scheme for reacting a hydroxyl propagating end of a polymer with a cyclic acid anhydride to form a free acid terminus.
US09000100B2
Suggested are solvent compositions, comprising (a) Carboxylic acid dialkyl amides (b) Fatty acids or their salts, and (c) Ethylene oxide-propylene oxide copolymers.
US09000098B2
Polymer spheres are fabricated. Dispersing polymerization and a two-stage swelling procedure are processed. The polymer spheres fabricated have uniform granular sizes and are highly cross-linking. Thus, the polymer spheres are heat-resistant and solvent-resistant.
US09000096B2
The instant invention provides a polyethylene blend composition having reduced chill roll buildup during extrusion process, and films and coating layers made therefrom. The polyethylene blend composition according to the present invention provide reduced chill roll buildups during extrusion process, and comprises: (a) from 60 to 95 percent by weight of a linear polyethylene composition comprising less than or equal to 100 percent by weight of the units derived from ethylene, and less than 15 percent by weight of units derived from one or more α-olefin comonomers; wherein said linear polyethylene composition has a density in the range of from 0.917 to 0.975 g/cm3, a molecular weight distribution (Mw/Mn) in the range of from 1.70 to 3.62, a melt index (I2) in the range of from 2 to 50 g/10 minutes, and a vinyl unsaturation in the range of from less than 0.06 vinyls per one thousand carbon atoms present in the linear polyethylene composition; and (b) from 5 to 40 percent by weight of a low density polyethylene composition (LDPE) having a density in the range of from 0.915 to 0.930 g/cm3, and a melt index (I2) in the range of from 0.4 to 10; wherein the polyethylene blend composition has a density in the range of 0.917 to 0.960 g/cm3 and a melt index (I2) in the range of from 2 to 30 g/10 minutes.
US09000094B2
A low-gloss thermoplastic resin composition that can have excellent heat resistance and weather resistance of the present invention includes (A) a thermoplastic resin forming a first dispersed phase; and (B) an acrylic resin forming a second dispersed phase, wherein the first dispersed phase has a network configuration.
US09000093B2
There is provided a method for producing a resin composition which is good in dispersability of a biodegradable resin. This method has a first kneading step of kneading (A) a biodegradable resin and (B) a compound that is reactive with the biodegradable resin (A) to produce a resin composition precursor, and a second kneading step of kneading the resin composition precursor and a polyolefin resin (C).
US09000091B2
Disclosed is a method for preparing polyolefin-based adhesives. In the method, a maleated polyolefin is blended, in sequence, with a polyolefin elastomer and then with a linear low density polyethylene. The polyolefin-based adhesive made according to the method of the invention shows improved clarity and adhesion in multilayer polyolefin films.
US09000084B2
Controlled geometry pellets, which have at least one generally flat face having a cross-sectional shape with a rectangular envelope having an aspect ratio of at least 1.5, are provided. The controlled geometry pellets may include a plurality of reinforcing particulates dispersed throughout the thermoplastic resin. The reinforcing particulates typically have a largest dimension which is no more than about 90% of the largest pellet dimension. Compression molding methods of manufacturing a shaped article using the pellets are also provided. The methods include compression molding thermoplastic resin-based material to provide a molded article, where thermoplastic resin-based material comprises a plurality of the controlled geometry pellets.
US09000083B2
Polymer-inorganic particle blends are incorporated into structures generally involving interfaces with additional materials that can be used advantageously for forming desirable devices. In some embodiments, the structures are optical structures, and the interfaces are optical interfaces. The different materials at the interface can have differences in index-of-refraction to yield desired optical properties at the interface. In some embodiments, structures are formed with periodic variations in index-of-refraction. In particular, photonic crystals can be formed. Suitable methods can be used to form the desired structures.
US09000074B2
A process for the manufacture of an aqueous polymer dispersion comprising the steps of i)providing a mixture of a first and second polymer each having a viscosity greater than 30 Pa·s at 100s−1 when measured at 100° C., the mixture comprising a) from 1 to 60 parts by weight of a first polymer immiscible in aqueous medium and optionally comprising reactive moieties and b) from 40 to 99 parts by weight of a second polymer comprising dispersing 10 groups, the polymer being miscible in the aqueous medium and optionally further comprising moieties reactive with the moieties on the first polymer ii) causing the polymers to melt at a chosen temperature under conditions of high shear in an extruder to form an intimate mixture of the polymers iii)optionally causing the reactive moieties of the first and second polymer to 1 react with each other under conditions of high shear in an extruder, to form a reacted mixture iv) quench cooling the molten mixture of step ii) or step iii) outside the extruder to form a solid product v) optionally breaking up the solid product into smaller pieces 20 vi) contacting the solid product with the aqueous medium wherein the aqueous medium dissolves the second polymer but not the first polymer to form a dispersion comprising microparticles of the first polymer in an aqueous solution of the second polymer.
US09000073B2
An adhesive composition including at least 7% and at most 30% by weight of adhesive component, which adhesive component includes at least one polyvinyl alcohol and/or at least one dextrin and/or at least one starch, further including a carbomer and optionally a boron compound, wherein the pH of the composition is at most 13.0 and, if starch and the boron compound are present, more than 91.0% of all the starches in the composition are in a cold water insoluble form. Further provided are a solid dry premix suitable as the basis for the adhesive composition, and processes for preparing the solid dry premix, or the adhesive composition, and articles wherein any of these are employed to form an adhesive bond with a substrate.
US09000072B2
A system and method of producing a filler material for combining with a polymer in a product may comprise providing an initial mixture including wetted unfermented grain solids, oxidizing the initial mixture to form a treated mixture, removing moisture from the treated mixture, and combining the treated material with a polymer into a composition.
US09000065B2
The present invention relates to a polyurethane prepared from a mixture comprising: (a) at least one polyethylene glycol; (b) at least one di-isocyanate; (c) at least one polydialkyl siloxane diol; and (d) at least one diol of formula (I) wherein n is an integer from 1 to 25; wherein the polyethylene glycol, di-isocyanate, polydialkyl siloxane diol and diol are reacted under substantially anhydrous conditions. Further aspects of the invention relate to a process for preparing a polyurethane. The invention also relates to a process for preparing a polyurethane xerogel in the form of a molded article, said process comprising the steps of: (i) preparing a reaction mixture comprising at least one polyethylene glycol, at least one di-isocyanate, at least one polydialkyl siloxane diol and at least one diol of formula I as described above; (ii) reacting the reaction mixture formed in step (i) under substantially anhydrous conditions to form a polyurethane xerogel; and (iii) injection molding the polyurethane xerogel to form a molded article.
US09000063B2
Medical devices having a wettable, biocompatible surface are described herein. Processes for producing such devices are also described.
US09000061B2
The present invention relates to poured-in place polyurethane foams and polyol premixes comprising 1-chloro-3,3,3-trifluoropropene (HFCO-1233zd) and one or more additional co-blowing agents.
US09000053B2
A method of producing an emulsion includes preparing a droplet solution comprising first and second molecular species, the droplet solution being in a fluid phase, wherein the first molecular species is soluble in the second molecular species; forming a plurality of droplets from the droplet solution in a bulk fluid to create a first emulsion, the plurality of droplets having a first ensemble average radius in the bulk fluid, wherein the first molecular species of the droplet solution is at least partially soluble in the bulk fluid and the droplet solution is at least partially immiscible in the bulk fluid; and allowing molecules of the first molecular species to migrate from the plurality of fluid droplets to the bulk fluid due to a higher concentration of the first molecular species in the droplet solution than the bulk fluid to result in the plurality of droplets having a second ensemble average radius that is smaller than the first ensemble average radius. An emulsion includes a bulk fluid and a plurality of droplets dispersed in the bulk fluid. The plurality of droplets have an ensemble average radius less than about 25 nm and greater than about 5 nm.
US09000052B2
A perfuming composition capable of prolonging the release of a perfuming component into the surrounding environment when applied on a surface. This composition utilizes hydrophobic block copolymers in the presence of high amounts of ethanol. The invention also relates to consumer articles containing such compositions. It finally provides methods for the perfuming of a surface and a method for increasing the long-lastingness of a perfuming component using these compositions.
US09000050B2
Compounds of structure (I): including stereoisomers and pharmaceutically acceptable salts thereof, wherein R1, R2 and A are as defined herein are disclosed. Such compounds have enhanced water solubility and have activity as SHIP1 modulators, and thus may be used to treat any of a variety of diseases, disorders or conditions that would benefit from SHIP1 modulation. Enantioselective methods for preparation of compounds of structure (I), compositions comprising a compound of structure (I) in combination with a pharmaceutically acceptable carrier or diluents and methods of SHIP1 modulation by administration of such compounds to an animal in need thereof are also disclosed.
US09000034B2
An antibiotic composition including erythorbyl laurate as an active ingredient and a use thereof are disclosed. Erythorbyl laurate is confirmed to have antibiotic effects on Gram-positive bacteria and thus is used as an antibiotic agent in foods, cosmetics, feeds, and the like and utilized in the form of a hand cleaner and other medicines for external application.
US09000032B2
Disclosed herein are compounds having a formula: or a pharmaceutically acceptable salt thereof, as well as therapeutic methods, medicaments, and compositions related thereto.
US09000024B2
The present invention provides compounds of Formula I: along with pharmaceutical compositions containing the same, and methods of use thereof in subjects in need of treatment.
US09000023B2
The present invention provides novel 1,4-disubstituted phthalazine hedgehog pathway antagonists useful in the treatment of cancer.
US09000022B2
Methods of using compounds of the invention, such as compounds of Formulae IIa, IIb, IIc, or IId and pharmaceutically acceptable salts thereof are disclosed. The compounds are useful in treating, preventing, inhibiting or ameliorating the symptoms of a disease or disorder that is modulated or otherwise affected by nuclear receptor activity, or in which nuclear receptor activity is implicated.
US09000021B2
Methods of treating bendamustine responsive conditions in patients having fluid and/or sodium intake restrictions are disclosed. The methods include identifying patients having such restrictions and in need of bendamustine, and then administering thereto a bendamustine-containing composition in a volume of about 120 ml or less intravenously over a period of about 15 minutes or less. The smaller volumes and reduced sodium load as compared to currently known methods of treatment minimize cardiac and/or renal stress in patients having diseases such as congestive heart failure or renal disease.
US09000018B2
The invention relates to pharmaceutical compositions containing at least one thiazolidin-4-one derivative to prevent or treat disorders associated with an activated immune system. Furthermore, the invention relates to novel thiazolidin-4-one derivatives notably for use as pharmaceutically active compounds. Said compounds particularly act also as immunosuppressive agents.
US09000017B2
The present invention relates to combinations of imazalil, or a salt thereof, and silver compounds which provide an improved biocidal effect. More particularly, the present invention relates to compositions comprising a combination of imazalil, or a salt thereof, together with one or more silver salts selected from silver acetate, silver alginate, silver azide, silver citrate, silver lactate, silver nitrate, silver sulfate, silver chloride, silver thiocyanate, silver-sodium-hydrogen-zirconium phosphate, silver sulfadiazine, silver cyclohexanediacetic acid and disilver 2,5-dichloro-3,6-dihydroxy-2,5-cyclohexadiene-1,4-dione; in respective proportions to provide a synergistic biocidal effect. Other suitable silver components (II) are products that set silver free using technologies to make it gradually biologically available such as by ion exchange mechanisms such like using zirconium phosphate based ceramics as a reservoir, or silver provided in glass ceramics as reservoir or carrier, or silver provided with zeolites, silica gel or titanium dioxide as a reservoir or an inorganic derivative containing silver, incorporated into a plastic composition for the preparation of moulded, lacquered or painted products, such as an amino resin (e.g. urea-formaldehyde resin, melamine formaldehyde resin . . . ) or a thermoplastic (e.g. a polyester, polyethylene, polyacrylate, pvc . . . ), or provided as nano-silver particles typically with a particle size of 20-1000 nm. Compositions comprising these combinations are useful for the protection of any living or non-living material, such as crops, plants, fruits, seeds, objects made of wood, thatch or the like, biodegradable material and textiles against deterioration due to the action of microorganisms such as bacteria, fungi, yeasts, algae, and the like.
US09000016B2
The present invention relates to substituted 1,3,4-oxadiazoles-2-thio derivatives, processes for preparing them, pharmaceutical compositions containing them and their use as pharmaceuticals as modulators of sphingosine-1-phosphate receptors.
US09000014B2
The invention provides pyridonyl guanidine compounds that inhibit F1F0-ATPase, and methods of using pyridonyl guanidine compounds as therapeutic agents to treat medical disorders, such as an immune disorder, inflammatory condition, or cancer.
US09000009B2
Methods for improving mitochondrial function, decreasing iron accumulation, and/or decreasing oxidative stress by exposing cells or treating a subject to compounds or compositions of the general formula (I) are described that are beneficial in treating, for example, diseases and conditions such as Friedreich's ataxia, normal aging, and various neurodegenerative diseases such as Alzheimer's disease and Parkinson's disease. Furthermore, such compounds are useful as probes for identifying defects in mitochondrial metabolism, mitochondrial iron accumulation, cellular stress among other mitochondrial diseases and helping to identify compounds active in overcoming such defects.
US09000005B2
The present invention relates to highly-pure pyrroloquinolinyl-pyrrole-2,5-dione and pyrroloquinolinyl-pyrrolidine-2,5-dione, for example, 3-(5,6-dihydro-4H-pyrrolo[3,2,1-ij]quinolin-1-yl)-4-(1H-indol-3-yl)-1H-pyrrole-2,5-dione, 3-(5,6-dihydro-4H-pyrrolo[3,2,1-ij]quinolin-1-yl)-4-(1H-indol-3-yl)pyrrolidine-2,5-dione, and pharmaceutically acceptable salts, solvates, and diastereomers thereof. The present invention also relates to methods for preparing highly-pure pyrroloquinolinyl-pyrrole-2,5-dione and pyrroloquinolinyl-pyrrolidine-2,5-dione, for example, 3-(5,6-dihydro-4H-pyrrolo[3,2,1-ij]quinolin-1-yl)-4-(1H-indol-3-yl)-1H-pyrrole-2,5-dione, 3-(5,6-dihydro-4H-pyrrolo[3,2,1-ij]quinolin-1-yl)-4-(1H-indol-3-yl)pyrrolidine-2,5-dione, and pharmaceutically acceptable salts, solvates, and diastereomers thereof.
US08999996B2
The invention generally relates to nuclear transport modulators, e.g., CRM1 inhibitors, and more particularly to a compound represented by structural formula I: or a pharmaceutically acceptable salt thereof, wherein the values and alternative values for the variables are as defined and described herein. The invention also includes the synthesis and use of a compound of structural formula I, or a pharmaceutically acceptable salt or composition thereof, e.g., in the treatment, modulation and/or prevention of physiological conditions associated with CRM1 activity.
US08999991B2
The present invention provides compounds of Formula I and the pharmaceutically acceptable salts thereof, which are inhibitors of the ROMK (Kir1.1) channel. The compounds act as diuretics and natriuretics and are valuable pharmaceutically active compounds for the therapy and prophylaxis of medical conditions including cardiovascular diseases such as hypertension and conditions resulting from excessive salt and water retention.
US08999985B2
Disclosed are substituted phthalazin-1 (2H)-ones of the formula (IA), preparation processes and medical uses thereof, particularly related to the compositions containing the same and the uses thereof, more particularly related to their pharmaceutical use as inhibitors of PARP.
US08999984B2
Methods of inhibiting one or more biological activities of Macrophage migration inhibitory factor (MIF) polypeptides are provided using an MIF inhibitory compound. The methods include therapeutic methods for treating cancers and inflammatory diseases.
US08999983B2
Compounds, compositions, and methods for modulation of Hec1/Nek2 interaction are provided. Such compounds disrupt Nek2/Hec1 binding and may be useful as chemotherapeutic agents for neoplastic diseases.
US08999981B2
The present invention relates to compounds and pharmaceutically acceptable salts of Formula (I): wherein X, R1, R2, R3, R4, R5, R6, R7, and R8 are as defined above. The invention further relates to pharmaceutical compositions comprising the compounds and pharmaceutically acceptable salts and to methods of treating diabetes mellitus and its complications (including in particular diabetic retinopathy, nephropathy or neuropathy), cancer, ischemia, inflammation, central nervous system disorders, cardiovascular disease, Alzheimer's disease and dermatological disease pression, viral diseases, inflammatory disorders, or diseases in which the liver is a target organ.
US08999974B2
The present invention relates to acyl piperazine derivatives which have blocking activities of voltage gated sodium channels as the TTX-S channels, and which are useful in the treatment or prevention of disorders and diseases in which voltage gated sodium channels are involved. The invention also relates to pharmaceutical compositions comprising these compounds and the use of these compounds and compositions in the prevention or treatment of such diseases in which voltage gated sodium channels are involved.
US08999973B2
The present invention relates to a thieno[3,2-d]pyrimidine derivative of formula (I), or a pharmaceutically acceptable salt, hydrate or solvate thereof, which has an excellent inhibitory activity on protein kinases, and a pharmaceutical composition comprising the same is effective in preventing or treating abnormal cell growth diseases.
US08999965B2
Disclosed are near IR emitting fluorescent compounds; methods of making and kits containing the described compounds; and their use in fluorescence-based detection of biological materials.
US08999960B2
Novel oxidized thiophospholipids are provided herein, as well as methods for producing same, and uses thereof in treating or preventing an inflammation associated with endogenous oxidized lipids and related conditions. Exemplary oxidized thiophospholipid according to embodiments described herein have the formula: wherein X1, X2, A1, A2, B′, B″, D′ and D″ are as described herein.
US08999957B2
The present invention provides a compound of the Formula I: (Formular I should be inserted here) or a pharmaceutically acceptable salt, solvate or ester thereof, wherein R, R1, R2 and R3 are as defined herein. The compounds are ERK inhibitors. Also disclosed are pharmaceutical compositions comprising the above compounds and methods of treating cancer using the same.
US08999956B2
The present invention relates to fungicidal N-[(het)arylalkyl)]pyrazolecarboxamide or thiocarboxamide and their heterosubstituted analogs, their process of preparation and intermediate compounds for their preparation, their use as fungicides, particularly in the form of fungicidal compositions and methods for the control of phytopathogenic fungi of plants using these compounds or their compositions.
US08999949B2
The present invention is directed to a composition and method which to treat diseases and to enhance a regulated immune response. More particularly, the present invention is drawn to compositions that are based on dendritic cells modified to express an inducible form of a co-stimulatory polypeptide.
US08999945B2
Implantable medical device eluting drug locally and in a prolonged fashion are provided.
US08999941B2
The present invention provides amorphous forms and the crystalline complexes of SGLT2 inhibitors as a novel material, in particular in pharmaceutically acceptable form. The crystalline forms of SGLT2 inhibitor canagliflozin are designated as Forms CS1, CS2, CS3, CS4 and CS5.
US08999936B2
The invention relates to an isolated monoclonal antibody or antigen-binding fragment thereof that (a) binds (i) wild-type Aβ 42/40 protofibril comprising N-terminal truncated Aβ forms and (ii) Aβ 42/40 Arc protofibril comprising N-terminal truncated Aβ forms and (b) has no or little cross-reactivity to Aβ 42/40 monomers. The invention further relates to a method of using such an antibody to treat Alzheimer's disease.
US08999910B2
An industrial cleaning composition comprises (a) from 5 to 50% by volume of an anionic surfactant having a log10P value in the range 5 to 7, (b) from 5 to 50% by volume of a first non-ionic surfactant having a log10P value in the range 0.1 to 3 and having the general formula, R′-(A0)n-OH wherein R′ is C9 to C20 alkyl, each AO unit is either —OCH2CH2— or—OCH2CH(CH3)—; the molar ratio [—OCH2CH(CH3)—]/[—OCH2CH2—] is in the range up to 8 and n is greater than 6 and (c) from 5 to 50% by weight of a second non-ionic surfactant having a log10P value in the range 0.1 to 3 having the general formula, R′—(OCH2CH2)n—OH wherein R′ is C9 to C20 alkyl, and n is less than 6, each of said volume percentages being with respect to the total volume of (a), (b) and (c). Corresponding cleaners derived therefrom by water dilution are also disclosed.
US08999904B2
The lubricating oil composition of the invention comprises a lubricating base oil with a kinematic viscosity at 100° C. of 1-20 mm2/s, and a viscosity index improver having a ratio M1/M2 of 0.20 or greater, between the total area of the peaks between chemical shifts of 36-38 ppm M1 and the total area of the peaks between chemical shifts of 64-66 ppm M2, with respect to the total area of all of the peaks, in the spectrum obtained by 13C-NMR. The lubricating oil composition of the invention has excellent effects, with a sufficiently high HTHS viscosity at 150° C., and a sufficiently low kinematic viscosity at 40° C., a sufficiently low kinematic viscosity at 100° C. and a sufficiently low HTHS viscosity at 100° C.
US08999901B2
Provided for are lubricant base stocks with improved filterability. The lubricant base stock includes a bright stock and an effective amount of a heavy neutral. The filterability of the base stock as measured by the Membrane Filtration Method is less than or equal to 400 seconds. Also provided for are lubricating oils with improved filterability and methods of improving the filterability of lubricant base stocks.
US08999891B2
Undesirable vegetation is controlled in turf using a combination of (a) florasulam, (b) 2,4-D or an agriculturally acceptable salt or ester thereof, and (c) fluoroxypyr or an agriculturally acceptable salt or ester thereof.
US08999889B2
The invention relates to substituted ketonic isoxazoline compounds of formula (I), to the enantiomers, diastereomers and salts thereof and to compositions comprising such compounds. The invention also relates to the use of the substituted ketonic isoxazoline compounds, of their salts or of compositions comprising them for combating animal pests. Furthermore the invention relates also to methods of applying such substituted ketonic isoxazoline compounds.The substituted ketonic isoxazoline compounds of the present invention are defined by the following formula I: wherein A1 to A4, R1 to R3, (R4)p, (R5)q, X and (G)m are defined as in the description.
US08999888B2
A plant growth regulator containing glutathione allows increasing harvest index. This provides a technique for specifying a control factor for a plant, thereby effectively controlling germination, growth, anthesis etc. of the plant.
US08999884B2
Absorbent structures, and absorbent articles with such structures, comprising water-absorbing polymer having a coating of film-forming polyurethane and therein incorporated a hydrophilic silica.
US08999877B2
This invention provides a fine particle composite comprising fine powder of a sulfide or sulfide complex comprising a given element. The fine particle composite is obtained by a method for producing a fine particle composite comprising fine powder of a sulfide or sulfide complex comprising at least one element selected from the group consisting of molybdenum (Mo), rhodium (Rh), ruthenium (Ru), and rhenium (Re). Such method comprises steps of: preparing a solvent mixture from at least one compound containing an element selected from among molybdenum (Mo), rhodium (Rh), ruthenium (Ru), rhenium (Re), and sulfur (S); and subjecting the solvent mixture to a hydrothermal or solvothermal reaction. The resulting fine particle composite comprises fine particles of a sulfide or sulfide complex comprising at least one element selected from the group consisting of molybdenum (Mo), rhodium (Rh), ruthenium (Ru), and rhenium (Re).
US08999875B2
The invention refers to a process for preparing a supported catalyst system for the polymerization of olefins comprising at least one active catalyst component on a support, the process comprisingA) impregnating a dry porous support component with a mixture comprising at least one precatalyst, at least one cocatalyst, and a first solvent, such that the total volume of the mixture is from 0.8 to 2.0 times the total pore volume of the support component, and B) thereafter, adding a second solvent in an amount of more than 1.5 times the total pore volume of the support component. The invention refers further to a catalyst system made by this process and the use of this catalyst system for polymerization or copolymerization of olefins.
US08999873B2
The invention provides an artificial marble and a method for manufacturing the artificial marble. The artificial marble is manufactured using raw materials such as silica, fluorspar and one or more waste materials. The one or more waste materials are selected from a group that includes limestone, clay, magnesite and phosphate.
US08999865B2
A laser annealing apparatus carries out an annealing treatment an amorphous silicon film on a TFT substrate. The apparatus includes: a mask having a plurality of apertures; a microlens substrate having a plurality of microlenses arranged on a surface thereof and configured to focus the plurality of laser beams Lb, that have passed through the respective apertures of the mask, onto the TFT substrate to apply a predetermined energy to the amorphous silicon film; a pair of guides each having a semi-cylindrical shape and disposed along both sides across the microlens substrate so that the axes of the guides are parallel to each other and that the tips of the guides protrude from the positions of tips of the microlenses toward the TFT substrate; and a film that is provided in a tensioned state between the pair of guides so as to be movable and that transmits a laser beam.
US08999864B2
A silicon wafer for preventing a void defect in a bulk region from becoming source of contamination and slip generation in a device process is provided. And a heat-treating method thereof for reducing crystal defects such as COP in a region near the wafer surface to be a device active region is provided. The silicon wafer has a surface region 1 which is a defect-free region and a bulk region 2 including void defect of a polyhedron whose basic shape is an octahedron in which a corner portion of the polyhedron is in the curved shape and an inner-wall oxide film the void defect is removed. The silicon wafer is provided by performing a heat-treating method in which gas to be supplied, inner pressure of spaces and a maximum achievable temperature are set to a predetermined value when subjecting the silicon wafer produced by a CZ method to RTP.
US08999858B2
The substrate processing apparatus includes a reaction chamber configured to accommodate a substrate; a first gas supply unit configured to supply a first process gas containing a silicon element to the substrate; a second gas supply unit configured to supply a second process gas containing a silicon element and a chlorine element to the substrate; an exhaust unit configured to exhaust the first process gas and the second process gas; a cleaning gas bypass supply unit configured to supply a cleaning gas to the exhaust unit; a cleaning monitoring unit installed in the exhaust unit; a gas flow rate control unit configured to adjust an amount of the cleaning gas supplied; and a main control unit configured to control the gas flow rate control unit in response to a signal received from the cleaning gas monitoring unit.
US08999854B2
On a substrate, a silicon carbide layer provided with a main surface is formed. A mask is formed to cover a portion of the main surface of the silicon carbide layer. The main surface of the silicon carbide layer on which the mask is formed is thermally etched using chlorine-based gas so as to provide the silicon carbide layer with a side surface inclined relative to the main surface. The step of thermally etching is performed in an atmosphere in which the chlorine-based gas has a partial pressure of 50% or smaller.
US08999839B2
A method of manufacturing a semiconductor structure, the method includes removing a portion of a dielectric filler from a first metal-containing layer formed over a semiconductor substrate to define an air-gap region according to a predetermined air-gap pattern. The method further includes filling the air-gap region with a decomposable filler and forming a dielectric capping layer over the first metal-containing layer. The method further includes decomposing the decomposable filler.
US08999836B2
It is an object of the present invention to provide a technique for manufacturing a highly reliable display device at low cost with high yield. A first electrode layer is formed by a sputtering method using a gas containing hydrogen or H2O, an electroluminescent layer is formed over the first electrode layer, and a second electrode layer is formed over the electroluminescent layer. According to one aspect of the present invention, a display device is manufactured to include a first electrode layer including indium zinc oxide containing silicon oxide and tungsten oxide, an electroluminescent layer over the first electrode layer, and a second electrode layer over the electroluminescent layer, where the electroluminescent layer includes a layer containing an organic compound and an inorganic compound to be in contact with the first electrode layer.
US08999835B2
A method of fabricating ESD suppression device includes forming conductive pillars dispersed in a dielectric material. The gaps formed between each pillar in the device behave like spark gaps when a high voltage ESD pulse occurs. When the voltage of the pulse reaches the “trigger voltage” these gaps spark over, creating a very low resistance path. In normal operation, the leakage current and the capacitance is very low, due to the physical gaps between the conductive pillars. The proposed method for fabricating an ESD suppression device includes micromachining techniques to be on-chip with device ICs.
US08999833B1
A device comprises a control gate structure over a substrate, a memory gate structure over the substrate, wherein the memory gate structure comprises a memory gate electrode and a memory gate spacer, and wherein the memory gate spacer is over the memory gate electrode, a charge storage layer formed between the control gate structure and the memory gate structure, wherein the charge storage layer is an L-shaped structure, a first spacer along a sidewall of the memory gate structure, a first drain/source region formed in the substrate and adjacent to the memory gate structure and a second drain/source region formed in the substrate and adjacent to the control gate structure.
US08999832B2
An organic electroluminescent (EL) element comprises: an anode; a cathode; a functional layer disposed between the anode and the cathode, and including a light-emitting layer containing an organic material; a hole injection layer disposed between the anode and the functional layer; and a bank that defines an area in which the light-emitting layer is to be formed, wherein the hole injection layer includes tungsten oxide and includes an occupied energy level that is approximately 1.8 electron volts to approximately 3.6 electron volts lower than a lowest energy level of a valence band of the hole injection layer in terms of a binding energy, the hole injection layer has a recess in an upper surface of the area defined by the bank, and an upper peripheral edge of the recess is covered with a part of the bank.
US08999820B2
There are provided a fabricating method of a carbon nanotube-based field effect transistor having an improved binding force with a substrate and a carbon nanotube-based field effect transistor fabricated by the fabricating method. The method includes forming an oxide film on a substrate, forming a photoresist pattern on the oxide film, forming a metal film on the entire surface of the oxide film having the photoresist pattern, removing the photoresist by lifting off, adsorbing carbon nanotubes on the substrate from which the photoresist is removed, performing an annealing process to the substrate to which the carbon nanotubes are adsorbed, and removing the metal film. Since an adhesive strength between a substrate and carbon nanotubes increases, stability and reliability of a field effect transistor can be improved. If the field effect transistor is applied to a liquid sensor or the like, a lifespan of the sensor can be extended and reliability of a measurement result obtained by the sensor can be improved.
US08999817B2
Disclosed is a wafer process body, a temporary adhesive layer is formed on a supporting body, and a wafer having a circuit-formed front surface and a to-be-processed back surface is stacked on the temporary adhesive layer, wherein the temporary adhesive layer is provided with a first temporary adhesive layer including a non-aromatic saturated hydrocarbon group-containing organopolysiloxane layer (A) which is adhered to the front surface of the wafer so as to be detachable and a second temporary adhesive layer comprised of a thermosetting-modified siloxane polymer layer (B) which is stacked on the first temporary adhesive layer and adhered to the supporting body so as to be detachable. Thus, temporary adhesion of a wafer with a supporting body may become easy, process conformity with the TSV formation process and with the wafer-back surface-wiring process may become high, and removal may be done easily, with high productivity.
US08999815B2
A method for fabricating a finFET device having an insulating layer that insulates the fin from a substrate is described. The insulating layer can prevent leakage current that would otherwise flow through bulk semiconductor material in the substrate. The structure may be fabricated starting with a bulk semiconductor substrate, without the need for a semiconductor-on-insulator substrate. Fin structures may be formed by epitaxial growth, which can improve the uniformity of fin heights in the devices.
US08999814B2
A semiconductor device fabricating method includes forming device chip regions and a monitor chip region for processing management, on a substrate surface layer on one main surface side of a semiconductor substrate wafer, each device chip region having an active region and an edge region; after forming metal films on front surface of the device chip regions and the monitor chip region by vapor deposition and photolithography, forming protective films on the front surfaces of the device chip regions and monitor chip region; and grinding and polishing another main surface side of the semiconductor substrate wafer to thin the semiconductor substrate wafer. A difference between an area of one chip occupied by the protective film of the monitor chip region and an area of one chip occupied by the protective film of the device chip region is 20% or less.
US08999797B2
A method for fabricating a semiconductor device includes forming a plurality of bit line structures over a substrate, forming contact holes between the bit line structures, forming sacrificial spacers on sidewalls of the contact holes, forming first plugs recessed inside the contact holes, forming air gaps by removing the sacrificial spacers, forming conductive capping layers capping the first plugs and the air gaps, and forming second plugs over the conductive capping layers.
US08999796B2
A method for fabricating at least one cell of a semiconducting component includes positioning a first conducting polysilicon-type layer on a substrate, above an insulating oxide-type layer. The production of at least one trench within the first conducting layer is included to form two electrically unlinked distinct conducting parts intended to form two transistor gates of respectively two distinct twin cells.
US08999793B2
A Multi-Gate Field-Effect Transistor includes a fin-shaped structure, a gate structure, at least an epitaxial structure and a gradient cap layer. The fin-shaped structure is located on a substrate. The gate structure is disposed across a part of the fin-shaped structure and the substrate. The epitaxial structure is located on the fin-shaped structure beside the gate structure. The gradient cap layer is located on each of the epitaxial structures. The gradient cap layer is a compound semiconductor, and the concentration of one of the ingredients of the compound semiconductor has a gradient distribution decreasing from inner to outer. Moreover, the present invention also provides a Multi-Gate Field-Effect Transistor process forming said Multi-Gate Field-Effect Transistor.
US08999789B2
A super-junction trench MOSFET with a short termination area is disclosed, wherein the short termination area comprising a charge balance region and a channel stop region formed near a top surface of an epitaxial layer with a trenched termination contact penetrating therethrough.
US08999788B2
Provided is a method of manufacturing a gallium-nitride-based semiconductor device, comprising forming a first semiconductor layer of a gallium-nitride-based semiconductor; and forming a recessed portion by dry etching a portion of the first semiconductor layer via a microwave plasma process using a bromine-based gas.
US08999780B1
A HEMT device has a substrate; a buffer layer disposed above the substrate; a carrier supplying layer disposed above the buffer layer; a gate element penetrating the carrier supplying layer; and a drain element disposed on the carrier supplying layer. The carrier supplying layer has a non-uniform thickness between the gate element and the drain element, the carrier supplying layer having a relatively greater thickness adjacent the drain element and a relatively thinner thickness adjacent the gate element. A non-uniform two-dimensional electron gas conduction channel is formed in the carrier supplying layer, the two-dimensional electron gas conduction channel having a non-uniform profile between the gate and drain elements.
US08999775B2
A method for fabricating a pixel structure includes the following steps. A patterned semiconductor layer, an insulation layer, and a patterned metal layer are formed on a substrate sequentially. A first inter-layer dielectric (ILD) layer is formed to cover the patterned metal layer. A low temperature annealing process is performed after forming the first ILD layer. A hydrogen plasma treatment process is performed after the low temperature annealing process. A second ILD layer is formed to cover the first ILD layer after the hydrogen plasma treatment process. A third ILD layer is formed to cover the second ILD layer. A source electrode and a drain electrode are formed on the third ILD layer. A passivation layer is formed on the source electrode and the drain electrode. A pixel electrode is formed on the passivation layer. A pixel structure manufactured by the above-mentioned method is also provided.
US08999770B2
A semiconductor structure includes a module with a plurality of die regions, a plurality of light-emitting devices disposed upon the substrate so that each of the die regions includes one of the light-emitting devices, and a lens board over the module and adhered to the substrate with glue. The lens board includes a plurality of microlenses each corresponding to one of the die regions, and at each one of the die regions the glue provides an air-tight encapsulation of one of the light-emitting devices by a respective one of the microlenses. Further, phosphor is included as a part of the lens board.
US08999769B2
A method of forming a device is disclosed. A substrate defined with a device region is provided. A gate having an upper and a lower portion is formed in a trench in the substrate in the device region. The upper portion forms a gate electrode and the lower portion forms a gate field plate. First and second surface doped regions are formed adjacent to the gate. The gate field plate introduces vertical reduced surface (RESURF) effect in a drift region of the device.
US08999764B2
Methods of blocking ionizing radiation to reduce soft errors and resulting IC chips are disclosed. One embodiment includes forming a front end of line (FEOL) for an integrated circuit (IC) chip; and forming at least one back end of line (BEOL) dielectric layer including ionizing radiation blocking material therein. Another embodiment includes forming a front end of line (FEOL) for an integrated circuit (IC) chip; and forming an ionizing radiation blocking layer positioned in a back end of line (BEOL) of the IC chip. The ionizing radiation blocking material or layer absorbs ionizing radiation and reduces soft errors within the IC chip.
US08999750B2
A semiconductor device includes an oxide semiconductor layer provided over a substrate having an insulating surface; a gate insulating film covering the oxide semiconductor layer; a first conductive layer and a second conductive layer laminated in this order over the gate insulating film; an insulating film covering the oxide semiconductor layer and a gate wiring including a gate electrode (the first and second conductive layers); and a third conductive layer and a fourth conductive layer laminated in this order over the insulating film and electrically connected to the oxide semiconductor layer. The gate electrode is formed using the first conductive layer. The gate wiring is formed using the first conductive layer and the second conductive layer. A source electrode is formed using the third conductive layer. A source wiring is formed using the third conductive layer and the fourth conductive layer.
US08999737B2
Methods of packaging a light emitting diode (LED) include providing a first lead having a first recess in a bottom surface and a second lead having a second recess in a bottom surface, placing a LED die over a top surface of at least one of the first and the second leads, electrically connecting the LED die to the first lead and to the second lead, forming a package around the LED die that includes an opening in its upper surface exposing at least the LED die, and separating the package containing the LED die, the first lead and the second lead from a lead frame such that the package contains a first castellation and a second castellation in a side surface of the package, such that the castellations expose the leads and/or a first platable metal which is electrically connected to the leads.
US08999726B2
Disclosed is a spotter device and methods for the formation of microassays, biochips, biosensors, and cell cultures. The spotter may be used to deposit highly concentrated spots of protein or other materials on a microarray slide, wafer, or other surface. It may also be used to perform various chemistry steps on the same spots. The spotter increases the surface density of substances at each spot by directing a flow the desired substance (or a solution thereof) over the spot area until surface saturation is accomplished. The spotter may be loaded by well plate handling equipment. The spotter uses wells, microfluidic conduits, and orifices to deposit proteins, other biomolecules, or chemicals on a spot on, a separate surface. Each orifice is connected to two wells via microconduits. When the spotter contacts a surface, a seal is formed between the orifices and the surface. The same or different substances may be flowed across each orifice. Any number of orifices may be incorporated into a spotter. The spotter is particularly useful for depositing proteins in high concentrations on a surface, since the spotter may be placed on a surface for an extended period of time.
US08999711B2
Bone cages are disclosed including devices for biocompatible implantation. The structures of bone are useful for providing living cells and tissues as well as biologically active molecules to subjects.
US08999706B2
Isolated human multipotent adult stem cell and isolated populations of cells that include human multipotent adult stem cells are disclosed. Human hair-follicle derived multipotent adult stem cells and methods of preparing isolated populations of cells that include human multipotent adult stem cells are disclosed. Isolated human hair-follicle derived multipotent adult stem cell that can differentiate in culture into a neuronal cell, a glial cell, a melanocyte cell, a muscle cell, an osteocyte, a chondrocyte, and a lymphocyte. Isolated human hair-follicle derived multipotent adult stem cell that can grow in cell culture in spheres are disclosed. Human pancreas derived multipotent adult stem cells, human liver derived multipotent adult stem cells, human kidney derived multipotent adult stem cells, human heart derived multipotent adult stem cells, human neural derived multipotent adult stem cells and methods of preparing isolated populations of cells that include such human multipotent adult stem cells are disclosed. Method of treating an individual who has diabetes, cardiac muscle damage, muscle damage and disease, neurodegenerative disease or nerve damage or injury, bone loss, damage and/or disease, cartilage loss, damage and/or disease, hair loss and immune disorders, are disclosed.
US08999700B2
Methods and materials related to producing 3-HP as well as other organic compounds are disclosed. Specifically, isolated nucleic acids, polypeptides, host cells, and methods and materials for producing 3-HP and other organic compounds are disclosed.
US08999697B2
A shortened process for producing a solution containing substantially purified capsular polysaccharides from a cellular Streptococcus pneumoniae lysate broth is described. Ultrafiltering and diafiltering a clarified S. pneumoniae lysate followed by pH adjustment to less than 4.5, preferably about 3.5, precipitated at least 98% of the protein in the solution without seriously affecting polysaccharide yield. Furthermore, following ultrafiltration and diafiltration and acidification to a pH of less than 4.5, filtration using activated carbon precipitated at least 90% of remaining protein without seriously affecting polysaccharide yield. Exemplary, non-limiting S. pneumoniae serotypes that can be purified using the shortened process of the invention are 1, 4, 5, 6A, 6B, 7F, 9V, 14, 18C, 19A, 19F, and 23F. In one embodiment, the Streptococcus pneumoniae cells are lysed using deoxycholate sodium (DOC), while in another embodiment the lytic agent is a non-animal derived lytic agent such as N-lauryl sarcosine sodium (NLS).
US08999687B2
The composite material is comprised of a substrate of discrete particles and a network of interconnected mycelia cells bonding the discrete particles together. The mycelia cells are selected from the group consisting of at least one of Agrocybe brasiliensi, Flammulina velutipes, Hypholomoa capnoides, Hypholoma sublaterium, Morchella angusticeps, Macrolepiota procera and Coprinus comatus. The fungus digests the nutrient material over a period of time sufficient to grow hyphae and to allow the hyphae to form a network of interconnected mycelia cells through and around the discrete particles thereby bonding the discrete particles together to form a self-supporting composite material.
US08999681B2
A method of producing cadaverine is more efficient and at a higher yield than production methods by the conventional fermentation methods. The method includes culturing coryneform bacterium/bacteria having a resistance to a pH of 5.5 or less. Preferably, the coryneform bacterium/bacteria has/have lysine decarboxylase activity and, preferably, the coryneform bacterium/bacteria has/have homoserine auxotrophy and/or a resistance to S-(2-aminoethyl)-L-cysteine.
US08999679B2
The present invention provides a method for the assembly of a polynucleic acid sequence from a plurality of nucleic acid sequences in which the polynucleic acid sequence is of a formula Nn+1, in which N represents a nucleic acid sequence and where n is 1 or greater than 1 and each N may be the same or a different nucleic acid sequence, in which the method comprises: (i) providing a first nucleic acid sequence N1 which has an oligonucleotide linker sequence L13 at the 3′-end of the nucleic acid sequence; (ii) providing a second nucleic acid sequence N2 which optionally has an oligonucleotide linker sequence L23′ at the 3′-end of the nucleic acid sequence and which has an oligonucleotide linker sequence L25′ at the 5′-end of the nucleic acid sequence, wherein the 5′-end linker sequence L25′ of nucleic acid sequence N2 is complementary to the 3′-end linker sequence L13′ of nucleic acid sequence N1; (iii) optionally providing one or more additional nucleic acid sequences N, wherein nucleic acid sequence N2 has an oligonucleotide linker sequence L23′ at the 3′-end of the nucleic acid sequence, and wherein said one or more additional nucleic acid sequences N comprises a terminal additional nucleic acid sequence NZ, and wherein each additional nucleic acid sequence N has an oligonucleotide linker sequence at its 3′-end, wherein said terminal additional nucleic acid sequence NZ optionally lacks an oligonucleotide linker sequence at its 3′-end and wherein each additional nucleic acid sequence N has an oligonucleotide linker sequence at its 5′-end, wherein for the first additional nucleic acid sequence N3 the 5′-end linker sequence L35′ is complementary to the 3′-end linker sequence L23′ of nucleic acid sequence N2 and for each second and subsequent additional nucleic acid sequence N the 5′-end linker sequence is complementary to the 3′-end linker sequence of the respective preceding additional nucleic acid sequence; and (iv) ligating said nucleic acid sequences to form said polynucleic acid sequence.
US08999677B1
Objective of the present invention is to provide a method for keeping of directional information in double-stranded DNA. We suggest to convert polynucleotide into a hybrid double-stranded DNA. One particular strand of this hybrid double-stranded DNA should be synthesized using at least one modified nucleotide. Thus, this particular strand would contain modified nucleotides along the whole length. Density of directional markers would not depend on the length of polynucleotides. Any internal fragments of the hybrid double-stranded DNA would have directional information. When it is necessary the modified strand may be easily degraded or separated from the other strand. It was found that such hybrid double-stranded DNA may be easily generated in a number of molecular biology tasks and may be used for molecular cloning, library preparation and strand separation.
US08999675B2
Nucleic acid assays for detecting nucleic acids of Dengue virus serotypes 1-4 derived from 5′ NTR.
US08999668B2
The present invention relates to a prokaryotic host cell comprising eukaryotic glycosyltransferase activity, where the eukaryotic glycosyltransferase activity is eukaryotic dolichyl-linked UDP-GlcNAc transferase activity and eukaryotic mannosyl-transferase activity. Also disclosed is a method of producing a glycosylated protein by providing a prokaryotic host cell comprising the eukaryotic glycosyltransferase activity and culturing the prokaryotic host cell under conditions effective to produce a glycosylated protein. Another aspect of the present invention pertains to a method for screening bacteria or bacteriophages by expressing one or more glycans on the surface of a bacteria, attaching a label on the one or more glycans on the surface of the bacteria or on the surface of a bacteriophage derived from the bacteria, and analyzing the label in a high-throughput format. A glycosylated antibody comprising an Fv portion which recognizes and binds to a native antigen and an Fc portion which is glycosylated at a conserved asparagine residue is also disclosed.
US08999653B2
The instant invention provides for methods for detecting the internalization of a transmembrane protein of interest expressed at the surface of a cell. More specifically, the methods involve (a) labelling the protein of interest with a fluorescent metal complex, the lifetime of which is greater than 0.1 ms, (b) adding to the reaction medium a composition capable of causing the internalization of the protein of interest, (c) adding to the reaction medium (1) a modulating agent which is a fluorescent FRET acceptor compound compatible with the fluorescent metal complex, the final concentration of which in the reaction medium is greater than 10−7M; or (2) a reducing agent, the redox potential of which is less than +0.1 V and preferably between 0.25 and 0.75 V; or (3) an agent which binds specifically, by non-covalent bonding, with the fluorescent metal complex; (d) adding a metal ion which competes with the rare earth so as to form a non-fluorescent metal complex; (d) measuring the luminescence emitted by the reaction medium at the emission wavelength of the fluorescent metal complex and/or at the emission wavelength of the modulating compound when the compound is a fluorescent acceptor compound; and (e) comparing the signal measured in step d) with a reference signal measured on cells having been subjected only to steps a) and c).
US08999647B2
Provided herein are methods of determining the aggressiveness or indolence of a ductal carcinoma in situ lesion. Also provided are methods of developing treatment plans for subjects with a ductal carcinoma in situ lesion based on the aggressiveness of the lesion.
US08999646B2
Bioassays for detecting the ability of one sample of a food substance, nutritional supplement, therapeutic agent and/or disease preventive agent relative to that of a second sample of such a substance, supplement and/or agent to inhibit, upregulate or otherwise modulate translation initiation, and thereby demonstrate a disease curative and/or preventive effect in a human and/or animal that consumes a such substance, supplement and/or agent or to whom a such substance, supplement and/or agent is administered are provided.
US08999632B2
The present relates to methods for detecting DNA damage in subjects treated with an ATR inhibitor. More specifically, this invention relates to a method for measuring changes in levels of γH2AX and/or pChk1Ser345 in, e.g., surrogate tissue cells, following ex vivo stimulation with a DNA damaging agent.
US08999619B2
A toner for electrostatic latent image development is comprised toner particles containing toner core particle containing at least a binder resin and a shell layer coating the toner core particle. The shell layer is smoothened to a predetermined level. The average particle diameter of the resin fine particles is from 45 nm to 300 nm. And, when cross-sections of the toner particles are observed using a transmission electron microscope, cracks approximately perpendicular to surfaces of the toner core particles are observable inside the shell layer.
US08999616B2
A plurality of flakes are provided that can be used in ink or paint wherein the flakes are of a size that requires magnification to see their shape, in the form of polygons, such as squares, triangle or rectangles. A breaking or grinding process is used to break a foil into these shaped flakes and frames or walls are provided within the foil sheet so as to delineate the shapes and these lines provided by frames or walls will facilitate breakage in a preferred manner such that the flakes break into selected shaped polygons. Remnants are typically present along flake edges due to the grinding and breakage process however with magnification, one can see the resultant regular polygonal shape. To clearly see the remnants one requires increased magnification and the remnant itself provides a type of signature. It can be seen as a taggent within a taggent.
US08999611B2
Some embodiments relate a method of forming a photomask for a deep ultraviolet photolithography process (e.g., having an exposing radiation with a wavelength of 193 nm). The method provides a mask blank for a deep ultraviolet photolithography process. The mask blank has a transparent substrate, an amorphous isolation layer located over the transparent substrate, and a photoresist layer located over the amorphous isolation layer. The photoresist layer is patterned by selectively removing portions of the photoresist layer using a beam of electrons. The amorphous isolation layer is subsequently etched according to the patterned photoresist layer to form one or more mask openings. The amorphous isolation layer isolates electrons backscattered from the beam of electrons from the photoresist layer during patterning, thereby mitigating CD and overlay errors caused by backscattered electrons.
US08999606B2
The present invention has as its object the provision of a solid polymer fuel cell catalyst exhibiting high durability and high power generation performance regardless of the humidification conditions or load conditions.The present invention relates to a solid polymer type fuel cell catalyst which is comprised of a carbon material which carries a catalyst ingredient, wherein the amount of adsorption of water vapor (V10) at 25° C. and a relative humidity of 10% of the carbon material is 2 ml/g or less and the amount of adsorption of water vapor (V90) at 25° C. and a relative humidity of 90% of the carbon material is 400 ml/g or more.
US08999602B2
The present invention relates to separators for electrochemical cells comprising (A) at least one layer comprising (a) crosslinked polyvinylpyrrolidone in the form of particles, (b) at least one binder, and (c) optionally a base structure, where the mass ratio of the crosslinked polyvinylpyrrolidone in the form of particles (a) to the sum of the mass of the binders (b) in the layer (A) has a value in the range from 99.9:0.1 to 50:50. The present invention further relates to the use of inventive separators and to apparatuses, especially electrochemical cells, comprising inventive separators.
US08999592B2
A cell unit of a fuel cell includes a first membrane electrode assembly, a first metal separator, a second membrane electrode assembly, and a second metal separator. Frames are provided at outer circumferences of the first and second membrane electrode assemblies. An oxygen-containing gas supply passage and a fuel gas supply passage, and an oxygen-containing gas discharge passage and a fuel gas discharge passage are provided in one pair of opposite sides of the frames, and a pair of coolant supply passages and a pair of coolant discharge passages are provided in the other pair of opposite sides of the frames at distances from one another.
US08999584B2
A Li-ion battery is disclosed, the Li-ion battery including an anode, a cathode, a lithium donor formed from a Li-containing material, and an electrolyte in communication with the anode, the cathode, and the lithium donor. The lithium donor may be incorporated into the anode, incorporated into the cathode, a layer formed on either an anode side or a cathode side of a separator of the battery. The lithium donor is formed from Li-containing material insensitive to oxygen and aqueous moisture.
US08999581B2
The present invention relates to a negative active material for a rechargeable lithium battery, a method of manufacturing the negative active material, and a rechargeable lithium battery including the negative active material. The negative active material includes a sphere-shaped first graphite particle that a first particle precursor, a flake-shaped graphite piece, is linked to each other; and at least one second particle dispersed between the flake-shaped graphite pieces inside the sphere-shaped first graphite particle and selected from the group consisting of at least one element particle selected from the group consisting of Si, Sn, Al, Ge, Pb, and combinations thereof; at least one element compound particle selected from the group consisting of Si, Sn, Al, Ge, Pb, and combinations thereof; a composite particle including at least one element selected from the group consisting of Si, Sn, Al, Ge, Pb, and combinations thereof; a carbon composite particle including at least one element selected from the group consisting of Si, Sn, Al, Ge, Pb, and combinations thereof; and a combination particle thereof.
US08999578B2
A positive electrode active material for a lithium secondary battery, the material represented by the formulas: LiNi(1-x-y)CoxAlyO2 or LiNi(1-x-y)CoxMnyO2 (0.1
US08999572B2
Provided herein is a lead-acid battery for which the risk of breakage of a current collecting lug part of a plate while in use is eliminated by simple means. At least a positive plate group of the lead-acid battery includes: one or more plates each including a current collector having a current collecting portion formed by expanding or punching a lead alloy sheet manufactured by cold rolling, and one or more current collecting lug parts unitarily formed with the current collecting portion; and a strap formed by a cast-on strap casting method and coupled to the one or more current collecting lug parts. The current collecting lug part is formed with an elongated protrusion extending in a direction away from the current collecting portion. The elongated protrusion continuously extends in a direction toward the current collecting portion of the plate from inside the strap.
US08999570B2
There is provided a battery pack in which a pair of ribs are formed at an inner frame to extend toward plane portions of a bare cell, so that the inner frame can be fixed at the exact position of the bare cell. In one embodiment, a battery pack includes a bare cell having a pair of first side portions opposite to each other, a pair of second side portions opposite to each other, and a pair of plane portions opposite to each other. The second side portions and the plane portions are connected to ends of the first side portions. A protection circuit module is electrically connected to the bare cell. An inner frame is provided between the bare cell and the protection circuit module. The inner frame has at least a pair of ribs opposite to each other while extending toward the plane portions of the bare cell.
US08999566B2
A pouch-type lithium secondary battery including: a battery unit comprising a positive electrode plate, a separator, and a negative electrode plate, wherein the separator is disposed between the positive and negative electrode plates; electrode tabs extending from each of the positive and negative electrode plates of the battery unit, respectively; a case having a space to accommodate the battery unit and sealing surfaces formed along the periphery of the space, wherein the case is sealed at the sealing surfaces by thermal fusion; and a protection circuit board 600 electrically connected to the electrode tabs. The protection circuit board is disposed parallel to an outer wall of the case. Since the electrode tabs are bent in an upright position with respect to the sealing surfaces, and the protection circuit board electrically connected to the bent electrode tabs is disposed between the outer wall of the case and the electrode tabs, the size of the sealing surfaces of the case can be minimized.
US08999562B2
A secondary battery capable of suppressing deterioration of rate characteristics and cycle characteristics even under a high-temperature environment is provided. The secondary battery according to an exemplary embodiment is a secondary battery having an electrode element in which a positive electrode and a negative electrode are arranged so as to face each other, an electrolytic solution and an outer package packaging the electrode element and the electrolytic solution, in which the negative electrode is formed by binding a negative electrode active material to a negative electrode collector, with a negative electrode binder; and the electrolytic solution contains an organic sulfurane compound. The secondary battery electrolytic solution according to the exemplary embodiment contains an organic sulfurane compound.
US08999561B2
An electrochemical device includes a thermally-triggered intumescent material or a gas-triggered intumescent material. Such devices prevent or minimize short circuits in a device that could lead to thermal run-away. Such devices may include batteries or supercapacitors.
US08999543B2
The present invention relates to a rechargeable battery that can use a negative electrode active material having a high volume expansion rate by receiving volume variation of an electrode assembly in a case. The rechargeable battery according to the present invention includes i) an electrode assembly including a positive electrode plate, a negative electrode plate, and a separator that are wound in a jelly roll shape to have a flat portion and curved portions disposed at both sides of the flat portion, ii) a case for receiving the electrode assembly, and iii) a cap assembly combined with the case to close and seal the case and that is electrically connected to the electrode assembly. When a direction that is perpendicular to a surface of the separator disposed in the flat portion is set to a first direction, the thickness of the flat portion measured along the first direction is smaller than the maximum thickness of the curved portion measured along the first direction.
