A method including receiving a voice call; analyzing speech in real-time to determine whether payment information is included in the voice call; omitting to record the voice call when it is determined that the voice call includes the payment information; and recording the voice call when it is determined that the voice call does not include the payment information.
Systems and methods for secure recording in a customer center environment are provided. The system receives data related to a communication at a media distribution device. A key is provided by a key server to the media distribution device to encrypt the received data. In addition, an identifier may be associated with the received data. The key and the identifier are stored in a database associated with the key server. The encrypted data is recorded the a recorder, where it is accessible to authorized users within the customer center. Upon request, the key is provided to the authorized user to decrypt the encrypted data for play back. The customer center environment may include a user interface for viewing customer contacts. The contact may be organized into folders and annotations associated with the customer contacts may be received.
A personal safety device comprises a “smart” safety lanyard capable of automatically contacting emergency response personnel. A “smart” lanyard of the subject invention comprises a strap with one or more fall arrest mechanisms or break away mechanisms operably attached thereto. A trigger mechanism also operably attached to the safety lanyard can detect when the fall arrest or break away mechanism has been deployed. A personal communication device operably attached to both the strap and to the trigger mechanism can automatically contact response personnel when the lanyard has been deployed.
A network audio testing system and a network audio testing method thereof for testing the performance of a network communication system during communication are disclosed. The system includes a processing system and a sound simulation device. The processing system is for generating a near-end simulation signal and a far-end simulation signal. The sound simulation device is for receiving and making a near-end simulation sound. The near-end simulation sound is received by a microphone of the network communication system to generate a first test signal. The processing system further simultaneously makes the sound simulation device sounding the near-end simulation sound and a speaker sounding a far-end simulation sound to obtain a second test signal. The processing system compares the first and the second test signal to obtain an attenuation degree of the near-end simulation signal and a residual energy of the far-end simulation signal.
A device for use with a radiation machine includes a first cone collimator, wherein the first cone collimator has a first end for receiving a radiation beam, a collimating portion for changing the radiation beam, and a second end for emitting an output beam, and wherein the first cone collimator is configured to be detachably coupled to a coupling device that has a plurality of moveable switches, and has one or more engaging portions configured to engage with a first subset of the plurality of switches. A method of using a cone collimator includes receiving a portion of a cone collimator, determining a subset of a plurality of switches that is pressed by the cone collimator, and determining an identity of the cone collimator based on the subset of the plurality of switches that is pressed by the cone collimator.
A device, system and method for administering radiation therapy to a tissue surface of a patient utilizes an applicator capable of controlled movement and repositioning over a selected area of tissue, under the control of a computer or controller. A servo-controlled manipulator can effect a raster scan of the desired area, such as an area of the skin, and this can be in any desired pattern such as serpentine, spiral, parallel but unidirectional, or irregular patterns. Preferably a third direction of control is included, i.e. a depth direction, with an appropriate form of depth sensor, a signal from which can be used to adjust the radiation source so that radiation of the tissue surface is consistent over varied contoured.
A circuit which is constituted by a plurality of n-channel transistors includes, in at least one embodiment, a transistor (T1) which has a drain terminal to which an input signal is supplied and a source terminal from which a output signal is supplied; and a transistor (T2) which has a drain terminal to which a control signal is supplied and a source terminal connected to a gate terminal of the transistor (T1). A gate terminal of the transistor (T2) is connected to the source terminal of the transistor (T2). With the arrangement, it is possible to provide (i) a semiconductor device which is constituted by transistors having an identical conductivity type and which is capable of reducing an influence of noise, and (ii) a display device including the semiconductor device.
Provided is an automated periodic surveillance testing method and apparatus in a digital reactor protection system, which unites a passive testing means such as a self-diagnosis or an on-line state comparison with an active testing means such as an automatic logic test and the like in the digital reactor protection system. Accordingly, a device self-diagnosis, an on-line state diagnosis, and an automatic logic test are used as the automated periodic surveillance testing method in the digital reactor protection system. Thus, the time consumed in a periodic surveillance test can be minimized, thereby saving reactor operating costs, and excessive manpower can be avoided, thereby decreasing potential human errors. Also, a channel detour time at which one of multiple channels is detoured can be minimized based on the automated periodic surveillance test in the digital reactor protection system, thereby enhancing stability.
A method of estimating frequency offset of a received signal in a terminal apparatus comprises a) determining a phase change between a first and a second reference symbol of the received signal, wherein the time distance t between the first and the second reference symbols is associated with an observation frequency f such that f=1/t. The method further comprises: b) determining a preliminary frequency offset Δf based on the determined phase change, wherein Δf forms a frequency offset hypothesis Δfh; and c) decoding at least a part of the received signal, with application of the frequency offset hypothesis Δfh, to a decoded signal. The method further comprises: d) determining whether the decoded signal is a successful decoding. If the decoded signal is a successful decoding, the frequency offset hypothesis Δfh is determined to be the estimated frequency offset, but if the decoded signal is not a successful decoding, the frequency offset hypothesis Δfh is adjusted by an integer n times the observation frequency f such that Δfh=Δf+n·f, where nε[+/−1, 2, 3, . . . ]. Steps c) and d) are then repeated.
A circuit for detecting a predetermined symbol of a digital data stream includes a frequency shifter, a correlator, a filter and a decision unit. The frequency shifter performs inverse-frequency shifting upon a first data to generate a first frequency-shifted data. The correlator calculates correlation upon the first frequency-shifted data and a second data to generate a correlated data. The filter, coupled to the correlator, filters and the correlated data to generate a filtered correlated data according to a time-domain windowing length. The decision unit, coupled to the filter, determines the predetermined symbol from the digital data stream according to the filtered correlated data.
A system includes a channel estimator configured to receive a plurality of Orthogonal Frequency Division Multiplexing (OFDM) symbols via a plurality of respective antennas, and generate estimates of a channel based on the plurality of OFDM symbols. A demodulator is configured to generate a plurality of demodulated symbols based on the plurality of OFDM symbols and the estimates of the channel. A decoder is configured to receive the estimates of the channel from the channel estimator, receive the plurality of demodulated symbols from the demodulator, and calculate decision metrics for the plurality of OFDM symbols using both the estimates of the channel and the plurality of demodulated symbols.
Systems, methods, apparatus and computer program products are provided for signaling to a receiver an availability of a service and a deterministic mapping of a service content corresponding to the service. A modulator receives a digital signal and generates a data frame from the digital signal, where the data frame is divided into segments, where at least one grouping of the segments contains the service content. The modulator modulates at least one grouping in accordance with the deterministic mapping. A receiving device receives a digital signal containing the availability of a service, the deterministic mapping corresponding to the service, and the service content, and performs an operation on the service content in accordance with the deterministic mapping.
A log likelihood ratio arithmetic circuit for calculating a log likelihood ratio from information of a coordinate of a reception signal point to be applied to a communication system using a quadrature amplitude modulation method, wherein the circuit limits a scope within which a value of the log likelihood ratio varies corresponding to a position of the reception signal point to a range between adjacent signal points including a hard-decision threshold of a bit, and wherein the value of the log likelihood ratio does not vary outside of the range between the adjacent signal points.
Systems and methods facilitate pilot signal design, power control, data rate determination, and channel assignment in the reverse link of a wireless communication system for dynamic scheduling and joint operation in SIMO, SU-MIMO, and MU-MIMO. Pilot signal is based on periodic transmissions of multiple sounding reference sequences for channel estimation. Power control is based on a reference signal at a predetermined power spectral density (PSD) level, and on an offset PSD determined and signaled based on an antenna that transmits the reference signal, other cell interference, and power amplifier headroom. PSD levels for SIMO/MIMO data transmissions are determined based on channel estimates and the predetermined PSD and offset PSD. Such data PSD levels are employed to generate data rates, and to dynamically schedule data streams for communication. Communication resources are conveyed through a channel assignment with an overhead that depends on the maximum multiplexing order of the estimated channel.
The present invention provides a method of transforming pre-coded signals for transmission over an air interface in a MIMO wireless communication system. Embodiments of the method may include applying, at a transmitter, a transform matrix and a pre-coding matrix to a signal prior to transmitting the signal using a plurality of antennas deployed in a first antenna configuration. The pre-coding matrix is selected from a codebook defined for a second antenna configuration deployed in a non-scattering environment. The transform matrix is defined based on the first antenna configuration and a scattering environment associated with the transmitter.
A mobile device receives beams orthogonal to a single user downlink MIMO channel associated with a selected first user in a user group. The mobile device estimates relative channel direction information with respect to the received beams for an associated single user downlink MIMO channel. The estimated relative channel direction information is hybrid-quantized to generate a semi-orthogonal matrix transmitted to the base station over a finite-rate feedback link. The mobile device receives downlink data transmission according to the hybrid-quantized relative channel direction information. The base station receives multiple semi-orthogonal matrices from remaining mobile devices to generate a semi-orthogonal group for the selected first user. A mobile device having the strongest quantized projected channel capacity is selected from the generated semi-orthogonal group as a second user. Mutual channel capacity information for the selected first and second users is determined to schedule corresponding downlink data transmissions, accordingly.
A received signal includes a plurality of user signals, the plurality of user signals including at least a first user signal and a second user signal. The first user signal corresponds to first user data that has been modulated independently of second user data corresponding to the second user signal. At least one of the first user signal or the second user signal is encoded with a finite state machine encoder independently of the other of the first user signal and the second user signal. The received signal is demodulated, wherein demodulating the received signal includes calculating distances between (i) each transmit symbol in the received signal and (ii) expected symbol values, wherein each expected symbol value corresponds to user data for multiple users including the first user and the second user. User data in the received signal including the first user data and the second user data is decoded based on the calculated distances.
Embodiments are directed to binary phase shift key modulating a first pilot symbol according to a reference sequence, and differentially binary phase shift key modulating a second pilot symbols. The original reference sequence and the delayed differentially modulated sequence are then combined before performing an Inverse Fast Fourier Transform and inserting a guard interval. Receiver operations are an inverse of the transmitter operations, which were just discussed. The receiver does not have to know the reference sequence. Embodiments are directed to specifying a plurality of seeds that are bit patterns each having r bits not all of which have a value of zero, extending the seeds into respective sequences by applying to each seed a recurrence formula; and using one of the sequences as a comb sequence and using the sequences other than the comb sequence as binary phase shift keying patterns.
A method of embedding information within a burst carrier signal, the method comprising modulating meta-data using a modulator such that a meta-carrier signal results, lowering a Power Spectral Density (PSD) of the meta-carrier signal by Direct Sequence Spread Spectrum (DSSS) chipping the meta-carrier signal using a linear Pseudo-Random Number (PRN) sequence, embedding one or more modulated symbols of the meta-carrier signal within an unused portion of one or more quadrants of a modulation constellation of a burst carrier signal such that a composite carrier signal results, and synchronously transmitting the composite carrier signal using a transmitter such that symbols of the meta-carrier signal are synchronized with symbols of the burst carrier signal.
Systems and methods which provide for reduced intra communication system information transfer by providing a compressed representation of a portion of intra communication system information are shown. An embodiment operates to provide intra communication system transfer of uncompressed received information while providing intra communication system transfer of a compressed representation of information ancillary to the received information. According to embodiments, ancillary information, such as CSI, associated with other transferred information is transferred with reduced data throughput requirements through application of compression techniques with respect to the transferred ancillary information. Embodiments additionally or alternatively reduce the intra communication system information transferred by reducing the received information transferred.
A method, comprising: periodically enabling reception of a signal at a receiver, every first time; transforming the received signal in order to determine data in the received signal; comparing the determined data with reference data; and using the difference between the determined data and the reference data to estimate a correction to a multiple of the first time in order to determine a distance between the receiver and an origin of the signal.
A multi-core processor device and a video decoding method using a multi-core processor, which can efficiently use system resources in a multi-core processor environment that requires a considerable amount of computation. The multi-core processor device includes a video decoder module which includes a plurality of function modules for performing video decoding; a memory which stores an input bitstream and loads the function modules; and a multi-core processor which includes a plurality of cores that perform a video decoding operation on the input bitstream by using the function modules, the cores including a first core and a second core, wherein, if the first core becomes idle during the video decoding operation, the second core allocates part of a remaining task of the second core to the first core and thus reduces an idle time of the first core.
An encoder is operable to encode input data to generate corresponding encoded output data. The encoder includes data processing hardware. The encoder compresses content associated with blocks or packets, so that the encoded output data is smaller in size than the input data.
In a picture coding method for generating a coded signal corresponding to each picture by coding a plurality of coded signals, a switching picture which is capable of switching a plurality of coded signals and subsequent pictures of the switching picture can refer to only a group of pictures of the same time in the coded signals. More specifically, the case where picture numbers of an adjacent picture of an S picture and the S picture are not continuous is not considered as an error.
A method of supporting synchronization of Scalable Video Coding (SVC) information and Advanced Audio Coding (AAC) information using a Normal Play Time (NPT), the method including: receiving video information using a decoding apparatus; receiving audio information using the decoding apparatus; calculating the NPT of the video information using a Real-time Transport Protocol (RTP) time stamp included in the received video information; calculating the NPT of the audio information using the RTP time stamp included in the received audio information; comparing the NPT of the video information and the NPT of the audio information to calculate a difference value; determining whether the calculated difference value is included in a specific synchronization region; and outputting the audio information and the video information when the calculated difference value is determined to be included in the specific synchronization region.
Precoder weights employed at a base station which coordinates with other base stations to form a super-cell are determined by: (a) determining an initial downlink precoding matrix at the base station for a mobile station serviced by the base station in the super-cell; (b) revising a downlink receiver matrix associated with the mobile station based on the initial downlink precoding matrix; (c) transforming the downlink receiver matrix to an uplink precoder matrix associated with the mobile station; (d) revising an uplink receiver matrix associated with each base station in uplink communication with the mobile station based on the uplink precoder matrix associated with the mobile station; and (e) revising the initial downlink precoding matrix by transforming the uplink receiver matrix to a revised downlink precoding matrix. Steps (b), (c), (d) and (e) are repeated for a particular number of iterations to determine a final downlink precoding matrix for the mobile station.
A transceiver device includes a transmitting unit, a receiving unit, and a detection unit. The transmitting unit transmits a first packet; the receiving unit receives a second packet and at least one receiving parameter; the detection unit is coupled to the transmitting unit and the receiving unit, and detects the first and the second packets to adjust the receiving parameter. When the detection unit detects that the first and the second packets are substantially the same, the detection unit pauses adjusting the receiving parameter.
A high-bandwidth communication modem such as an ultra wideband (UWB) communication modem or a high-giga wideband (HGWB) modem includes an interface configured to transceive data in connection with a host device, a baseband processor configured to process, in a parallel manner, a baseband signal being transceived between the interface and a parallel/serial converter, the parallel/serial converter configured to combine a parallel signal into a serial signal and output the serial signal, and separate a serial signal into a parallel signal and output the parallel signal, a radio frequency (RF) processor configured to reduce a frequency of a received UWB or HGWB signal and transmit the frequency-reduced signal to the parallel/serial converter, and increase a frequency of the serial signal received from the parallel/serial converter and transmit the frequency-increased signal to a directional antenna, and the directional antenna configured to transceive a wireless signal by forming a directional beam and control a direction of the directional beam.
A satellite-based positioning system reception device comprises a function for detecting false lock-ons based on a linear combination of complex signals arising from correlation pathways between a signal received from a satellite and a prompt local code and a plurality of local codes shifted by determined delays with respect to the prompt local code. An advantage is that the function for detecting false lock-ons makes it possible to remedy the false lock-ons due to multi-path phenomena.
A transmitter transmits a signal to a receiver using spread spectrum signals. The transmitter generates a respective signal. The transmitter separates the respective signal into multiple predefined portions, wherein each predefined portion is below a noise floor. The transmitter transmits at least a plurality of the predefined portions of the respective signal at discrete bandwidth intervals in accordance with a spread spectrum signal splitting technique. The discrete bandwidth intervals are portions of spectrum that are available for transmission. The receiver receives at least a plurality of the multiple predefined portions of the respective signal at the discrete bandwidth intervals. The receiver reconstructs the respective signal using at least a plurality of the predefined portions in accordance with the spread spectrum signal splitting technique.
A method for producing light emission from a semiconductor structure, including the following steps: providing a semiconductor structure that includes a first semiconductor junction between an emitter region of a first conductivity type and a base region of a second conductivity type opposite to that of the first conductivity type, and a second semiconductor junction between the base region and a drain region; providing, within the base region, a region exhibiting quantum size effects; providing an emitter electrode coupled with the emitter region; providing a base/drain electrode coupled with the base region and the drain region; and applying signals with respect to the emitter and base/drain electrodes to obtain light emission from the semiconductor structure.
A laser pulse synthesis system is provided. A further aspect of the present system uses a phase-only modulator to measure ultrashort laser pulses. An additional aspect achieves interferences between split subpulses even though the subpulses have different frequencies. Yet another aspect of a laser system employs multi-comb phase shaping of a laser pulse. In another aspect, a laser system includes pulse characterization and arbitrary or variable waveform generation through spectral phase comb shaping.
An apparatus comprising: a processor for determining if a laser is operating in a single-mode state and for determining the degree to which one of one or more tunable parameters for the laser must be adjusted so that laser operates in a single-mode state if not operating in a single-mode state, wherein the one or more tunable parameters include the following parameters: the laser current and the wavelength of the output light. The apparatus may include a laser and/or a holographic storage medium. Also provided is a method for determining if a laser is operating in a single-mode state and for determining the degree to which one of one or more tunable parameters for the laser must be adjusted so that laser operates in a single-mode state if not operating in a single-mode state.
A system includes a laser configured to generate a pump beam at a pump wavelength. The system also includes a multi-media Raman resonator configured to receive the pump beam and generate an output beam. The multi-media Raman resonator includes multiple mirrors and multiple Raman media optically located between the minors. Output power in the output beam is spectrally concentrated around a single dominant wavelength that is longer than a pump wavelength. The longer wavelength of the output beam is associated with a combination of at least one Stokes shift associated with each of the individual Raman media. A filter could be configured to absorb light at a wavelength that is absorbed by one of the Raman media or to redirect light at the wavelength absorbed by one of the Raman media away from that Raman medium.
Techniques for transmitting and receiving data in a communication system are described. A receiver may iteratively decode a data packet and may obtain better performance with more decoding iterations. The receiver may select the number of decoding iterations based on at least one parameter (e.g., packet size) to tradeoff between decoder throughput and link performance. In one design, a transmitter may obtain a transport format selected based on the number of decoding iterations, process a data packet in accordance with the transport format, and send a transmission of the data packet to the receiver. The receiver may receive the transmission of the data packet and may perform decoding for the data packet for up to the selected number of decoding iterations. The transport format and/or CQI information may be determined based on an expected degradation in link performance due to the receiver performing the selected number of decoding iterations.
Provided are an apparatus and method of transmitting and receiving a wake-up signal. The method of receiving a wake-up signal includes the following: operating a radio frequency (RF) receiving unit that receives a wireless signal through an antenna during an SFD detecting time, wherein the SFD detecting time is shorter than a predetermined SFD detecting time period, according to the predetermined SFD detecting time period and detecting a start of frame delimiter (SFD) to indicate that the received wireless signal is a wake-up signal to wake-up a node in a sleep mode; and detecting the wake-up signal by continuously operating the RF receiving unit when the SFD is detected. Power consumption that is used to receive the wake-up signal can be reduced.
A wireless node device receives data island packets from an HDMI device with a time cycle, and prohibits wireless transmission of a data island notification message when a video output format and an audio output format included in the data island packet are the same as a video output format and an audio output format included in the data island packet, respectively.
An integrated circuit includes an array of interconnected programmable logic elements (2) each logic element performing data processing control by a configuration. The logic elements may be part of a field programmable gate array. Embedded within the array are a plurality of dedicated communication interface circuits (36) providing access to one or more shared communication channels (38) to provide intra-array communication. Communication transactions between functional unit (78, 80, 82, 84) are multiplexed (e.g. time-division-multiplexed) together to share a shared communication channel provided within the array.
A computer-implemented method is disclosed including: receiving a broadcast signal containing a set of multiplexed multimedia channels; storing said multiplexed multimedia channels in a temporary storage buffer on a mass storage device; determining a point in said temporary storage buffer to begin demultiplexing and decoding a first channel responsive to a user request to view a particular program on said first channel in its entirety, said point indicating the start of said program on said first channel; and demultiplexing and decoding said first channel of said set of multiplexed multimedia channels from said point within said temporary storage buffer.
A system for managing voice and data communications for at least one user is coupled to at least one wide area telecommunications network and includes at least a processor and data storage resources. A first bus is adapted to couple video data between the system and a video unit coupled to the system under control of the processor. A second bus is adapted to couple audio data between the system and a microphone unit coupled to the system under control of the processor, and audio data are coupled to a TDM bus in the system operating under control of the processor. A digital transmission link of the wide area telecommunications network couples the video and audio data from the system, under control of the processor. A user participates in a video call with the video data, while concurrently the user participates in a telephone call with the audio data. Voice communications of the telephone call that stay in a circuit-switched form are provided via the TDM bus, and the video call and the telephone call can provide a conference call.
A method for synchronizing network elements to a global clock derived from the GPS clock acquired by a plurality of base stations. The global clock is distributed to controllers of various networks, and from there to network access devices. The network access devices further distribute the global clock to various wire-line and local wireless networks and from there, to the users served by these networks. The user equipment is enabled with a simple clock discipliner that adjusts the local clock to the global clock, resulting in a reliable synchronization across the converged communication networks.
According to embodiments of the invention, there is provided a method for operating a network processor. The network processor receiving a first data packet in a stream of data packets and a set of receive-queues adapted to store receive data packets. The network processor processing the first data packet by reading a flow identification in the first data packet; determining a quality of service for the first data packet; mapping the flow identification and the quality of service into an index for selecting a first receive-queue for routing the first data packet; and utilizing the index to route the first data packet to the first receive-queue.
The various embodiments include methods, servers and systems for communicating signaling information in a telecommunications signaling network that involves decoding a first portion of the received first message, determining if the decoded first portion identifies a destination component, determining if the destination component can be derived from the decoded first portion when the decoded first portion does not identify a destination component, recursively decoding subsequent portions of the received first message when previously decoded portions do not identify the destination component and that the destination component cannot be derived using the previously decoded portions, performing context-based routing operations using information extracted from the previously decoded portions to identify the destination component, packaging the previously decoded portions along with a remainder of the first message into a second message encoding signaling information, and sending the second message encoding signaling information to the identified destination component over a second communications link.
A wireless communication apparatus transmits a packet that includes a destination address, a source address, and a frame body over a wireless network. The wireless communication apparatus computes a first calculation value for use in detecting packet falsification based on a destination address, a source address, and a frame body by using a predetermined computation method, and stores the first calculation value that is associated with the destination address. When a second packet is to be transmitted to a same destination address that is the same as the destination address stored in the storage unit, the wireless communication apparatus computes a second calculation value using the first calculation value stored in the storage unit and the frame body contained in the second packet by using the predetermined computation method.
A technique is disclosed for synchronizing NAT information stored on different network devices that have been configured to implement a network address translation protocol. Each of the network devices includes a respective NAT data structure configured to store NAT information. The NAT information includes at least one NAT entry relating to a network node engaged in a communication session with at least one other network node. At least one NAT entry in a first NAT data structure is modified. The first NAT data structure is associated with a first NAT network device. A first NAT transaction message is generated which includes information relating to the modifications performed on the first NAT data structure. The first NAT transaction message is transmitted to at least one other NAT network device to thereby cause that device to modify its respective NAT data structure using information from the first NAT transaction message. In this way, synchronization of NAT information stored on each of the network devices may be achieved.
A method for connecting to a called terminal includes: acquiring mobile station international integrated service digital network number (MSISDN) information corresponding to a called terminal which is located at an IP multimedia subsystem (IMS) domain, together with international mobile subscriber identity (IMSI) information and location area identity (LAI) information that correspond to the MSISDN information when a primary mobile access gateway control function entity mAGCF has a failure; and performing a connecting to the called terminal through a selected mAGCF according to the MSISDN information, the IMSI information and the LAI information.
The present disclosure relates to signalling of reference signals for Multi Input Multi Output (MIMO) transmission schemes. A method embodiment for generating reference signals for use between a mobile terminal 10 and an access node 20 in a cellular communication network 100 comprises receiving, by the mobile terminal 10, a cyclic shift set indicator; selecting, from a group of cyclic shift sets, a cyclic shift set based on the received cyclic shift set indicator, each cyclic shift set comprising at least two parameters each indicating a cyclic shift; and generating, based on at least two parameters of the selected cyclic shift set, at least two orthogonal reference signals for at least two layers of a Single User Spatial Multiplexing transmission scheme to be simultaneously transmitted. A further method embodiment comprises selecting, from a plurality of groups of cyclic shift sets, a group of cyclic shift sets based on at least one of a transmission rank, being the number of layers to be simultaneously transmitted, and a number of configured antennas of the mobile terminal 10.
Provided is a method and system for managing device operations. The method includes dividing control information into two or more portions, each portion being associated with a unique control sequence number. Each of the associated control sequence numbers is examined during an update cycle to determine which of the portions must be updated. The control sequence number includes information related to control information updates.
Adaptive precoding codebooks are described. In one embodiment, the method of wireless communication includes reading at least a rank-2 baseline codebook having codewords representing precoding matrices. An adaptive codebook is generated by multiplying a first column of the codeword with a first transform matrix calculated from a channel correlation matrix, and multiplying a second column of the codeword with a second transform matrix calculated from the channel correlation matrix. The first and the second transform matrices are orthogonal.
A communication terminal performs wireless ad hoc communication with another terminal via a first wireless interface dedicated to reception and a second wireless interface for both transmission and reception. The terminal executes defining a communication area to be divided into cells of first polygonal shapes and each of the cells to be divided into a plurality of sub-cells of second polygonal shapes different from the first polygonal shapes; allocating, so as to prevent adjacent cells from belonging to a set of two identical wireless channels, a first wireless channel and a second wireless channel as the set of wireless channels to the cells; and setting the first wireless channel and the second wireless channel so that the same transmission channel is set for sub-cells brought into contact between the adjacent cells while different transmission channels are set for adjacent sub-cells in an own cell where an own terminal is present.
A client station in a wireless local area network (WLAN) communication system includes a beam commutation algorithm and a smart antenna responsive to the beam commutation algorithm for selecting one of a plurality of directional antenna beams. The smart antenna is configured as a virtual omni-directional antenna by using a commutation of switched directional antenna beams. A switched directional antenna system that performs a commutation sequencing can be blind to environmental conditions and changes.
It is described a method for selecting a transmission mode for a radio data transfer between a user equipment and a base station of a telecommunication network. The method includes (a) determining the quality of a radio link, which extends between the user equipment and the base station, (b) determining the radio load within the telecommunication network, and (c) selecting a transmission mode based on the quality of the radio link and on the radio load. It is further described a control device for selecting a transmission mode for a radio data transfer between a user equipment and a base station and a computer program for controlling the described transmission mode selection method.
The present invention relates to a solution for handling handover of connections for a user equipment from a packet switch network to a circuit switched network. This is provided as a method implemented in a node and system. The method is provided in a telecommunications network (100) connecting user equipment, i.e. UE, (101) communicating wirelessly (111) with the network. The method comprising steps of detecting (301) that handover is required from a packet switched, i.e. PS, based network (102) to a circuit switched, i.e. CS, based network (103), initiating (302) in a source mobility management node (104) a single radio voice call continuity, i.e. SVRCC, initiating (303) a PS to PS handover for non-voice components with information about voice related parameters and a PS to CS handover indicator, executing (304) hand over, sending (305) an update to a serving gateway, i.e. SGW, (107) from a target mobility management node (105) with non-voice related parameters and the PS to CS handover indicator, forwarding (306) the update from the SGW to a packet data network gateway, i.e. PGW (108), receiving the update in the PGW, detecting the PS to CS handover indicator, and handling (307) in the PGW the PS to CS handover indicator.
Techniques are provided to enable a support for guest access of devices in a network. At a controller apparatus in a first mobility sub-domain of a network comprising a plurality of mobility sub-domains, a request message containing a request for guest network access for a device is received from a first access switch in the first mobility sub-domain. The controller apparatus forwards the request message to a guest controller. At a tunneling endpoint apparatus in the first mobility sub-domain, a tunnel is established to the guest controller to carry traffic between the device and the guest controller. Traffic for the device passes in a tunnel between the first access switch and the tunneling endpoint apparatus in the first mobility sub-domain, through the tunneling endpoint apparatus in the first mobility sub-domain and in the tunnel between the routing apparatus in the first mobility sub-domain and the guest controller.
Provided are methods of spectrum sensing and assigning quiet periods in a cognitive radio system in order to increase the reliability of detection regarding whether an incumbent user appears in his/her frequency channel, customer premises equipment (CPE), a base station, and the structure of a super frame for performing the methods. The spectrum sensing method includes communicating with a base station (BS) and performing spectrum sensing for frequency channels having quiet periods (QPs) during the QPs of the frequency channels used in the cognitive radio system, wherein the QPs of the frequency channels do not overlap each other
A network (100) includes a hub device (110) and at least one unattached peripheral device (120). The unattached peripheral device (120) transmits an attach request to the hub device (110) with a selected address, receives a new address from the hub device to identify the unattached peripheral device (120), and communicates with the hub device (110) using the new address.
In a wireless communication system, when data communication is performed between a relay device and a terminal (in a second path), the same amount of data is required to be transferred between a base station and the relay device (in a third path). An amount of wireless communication resources required is obtained by adding an amount inversely proportional to a capacity of each of the second and third wireless transmission-paths. Therefore, the amount inversely proportional to the capacity of the third path is consumed in excess. Based on a channel quality of a first wireless channel between the base station and the terminal, a channel quality of a second wireless channel between the terminal and the relay station, and a channel quality of a third wireless channel between the base station and the relay station, it is determined whether data communication between the base station and the terminal is relayed.
A method of configuring a radio connection by a mobile station (MS) in a multi-carrier system includes receiving carrier aggregation information on a plurality of aggregated carriers from a base station (BS), performing a radio connection to the BS by using at least one first carrier among the plurality of aggregated carriers, and reestablishing a radio connection to the BS by using a second carrier when an error occurs in the radio connection.
A method and system for a wireless device configured to communicate with a network is presented. The network is communicated with at a radio link control layer. An indication is communicated to the network that a higher layer protocol is operating in an acknowledged mode. The higher level protocol is above the radio link control layer. In some implementations, the higher level protocol terminates at a device located outside the network. A resource allocation is received from the network. The resource allocation is at the RLC layer.
Techniques for bandwidth allocation in communication systems such as OFDM, OFDMA, or SC-FDMA systems to improve spectral efficiency and increase flexibility and adaptability with scalable single or multiple-carrier bandwidth allocation characteristics.
Methods and apparatus disclosed maximize the capacity of serving cells and minimize inter-cell interferences due to power emission from serving cells in a multi-carrier, multi-cell communication system. The control methods and apparatus take into account various factors such as cell configuration, frequency reuse, geometry and path-loss information, transmission priority, subchannel configuration, feedback from other cells, or any combination thereof, and produce signals that control the transmission power levels and the modulation and coding of transmitted signals.
Communication in a dominant interference scenario may be supported by performing inter-cell interference coordination (ICIC). According to certain aspects of ICIC, resource coordination/partitioning may be performed to allocate resources to a serving Node B located near the vicinity of a strong interfering Node B. The interfering Node B may avoid transmitting on the allocated/protected resources, but transmissions from the interfering Node B on resources not allocated to the serving Node B (i.e., unprotected) may cause significant interference on cell-specific reference signal (CRS) tones of the serving Node B. Therefore, if the CRS tones of the unallocated/unprotected resources are used, performance degradation may result to various operations of the serving Node B. Therefore, certain aspects of the present disclosure provide techniques for a UE receiver in utilizing resource partitioning information (RPI) for performing CRS processing in a heterogeneous network (HetNet).
A method for communication between nodes in a wireless network, in particular in a wireless ad hoc or mesh network, wherein multiple wireless channels with different frequency bands are provided and wherein the nodes are enabled to operate on the different channels is characterized in that each the node has assigned a home channel where it usually resides, wherein a node that leaves its home channel and switches to another of the multiple channels—temporary operating channel—provides information about the temporary operating channel on the node's home channel.
A wireless communication device is operable to perform neighbor cell analysis functions while operating in a continuous packet connectivity (CPC) mode and without requiring dedicated time periods for performing the neighbor cell analysis functions as part of a discontinuous reception (DRX) phase of the CPC mode. The DRX phase includes discontinuous (e.g., periodic) time periods for monitoring a downlink control channel from a serving base station. A receiver of the wireless communication device receives a control signal over the downlink control channel during each time period of the discontinuous time periods. A processor of the wireless communication device performs a portion of a neighbor cell analysis function during each time period of a quantity of the discontinuous time periods to produce neighbor cell analysis data. The processor accumulates the neighbor cell analysis data over the quantity of time periods to complete the neighbor cell analysis function.
A mobility access gateway (MAG) comprising at least one processor configured to implement a method comprising establishing a multi-protocol label switched (MPLS) tunnel with a local mobility agent (LMA), and establishing communications with a plurality of mobile nodes (MNs) associated with a plurality of service providers, wherein a plurality of packets destined for the LMA comprise a label that distinguishes between the service providers. Also disclosed is a method comprising receiving a packet destined for a MN, adding an inner label to the packet, wherein the inner label is associated with the MN, and adding a tunnel label to the packet.
An apparatus and method for serving sector maintenance in a wireless communication system is described. A forward link serving sector (FLSS) change command (ChangeFLSS) is received and it is determined if a FLSS in the ChangeFLSS command is a member of a NonSynchronousSubset. If the determination is positive, a reverse link serving sector (RLSS) and a dedicated RLSS (DRLSS) in the public data may be updated to be equal to the FLSS in the ChangeFLSS command, and indications that the RLSS and the DRLSS have changed may be issued. Otherwise, the FLSS and a dedicated FLSS (DFLSS) in the public data may be updated to be equal to the FUSS in the ChangeFLSS command, and indications that the FUSS and the DFLSS have changed may be issued.
Methods are disclosed for management-packet communication using management frames between various combinations of stations and access points to share application data, for example, a GPS ephemeris and/or its position data for at least one GPS satellite. The management-packet communications may push the application data, or operate in a pull mode based upon availability and requests. The methods may use infrastructure messaging and/or ad hoc or peer to peer messaging schemes. The apparatus supporting these methods include embodiments of integrated circuits, processors, program systems, installation packages, computer readable memories and servers.
Techniques for sending information in a wireless network are described. The network may support (i) regular subframes used to send unicast information and (ii) multicast/broadcast single frequency network (MBSFN) subframes used to send broadcast information and having lower overhead than the regular subframes. In an aspect, MBSFN subframes may be used to mitigate interference. A first base station may cause high interference to stations (e.g., UEs) served by a second base station. The first base station may reserve a subframe for the second base station, send system information conveying the reserved subframe as an MBSFN subframe to its stations, and transmit in a first part of the reserved subframe in accordance with an MBSFN subframe format. The second base station may skip the first part and may send unicast information to its stations in the remaining part of the reserved subframe. In another aspect, MBSFN subframes may be used to support additional base station capabilities.
Systems and methods for providing a low power receiver device using fine grained time division are provided. In one embodiment, the receiver device comprises a tuner, a demodulator configured to demodulate at least one sampled signal, a payload processor configured to process at least one demodulated signal into an output format, and a time division control logic configured to generate a control signal to switch at least one component within the receiver device between modes to conserve power. The at least one component may be switched between an active mode, a standby mode, a power off mode, and a low power mode. In further embodiments, the at least one component may be switched between staggered modes.
Techniques disclosed herein include systems and methods for improving multicast traffic operations in a Shortest Path Bridging (SPB) network by conveying bridging domain information of an incoming interface (IIF) when transporting multicast traffic over the SPB network. Techniques disclosed herein include modifying encapsulation packet header information of existing Mac-In-Mac fields to convey additional information that can be interpreted at edge nodes by modifying edge node interpretation of multicast data. Specifically, the value of the I-SID in the BMAC-DA field can be set to be different from the I-SID value in the I-TAG field. Carrying the L2 VSN I-SID value in the I-TAG allows the Egress BEBs to determine which VLAN/L2 VSN/Bridging-Domain of the IIF is in use, and then modify or preserve underlying header information accordingly.
In a system including a plurality of node devices that form an ad hoc network (5), a node device (N06) receives, from another node device (N08; N04), first frame data including identification information of a source node device and a destination node device. If node related information of only the node device can be additionally stored in the received first frame data, the node device generates second frame data including the identification information of the source node device (N01; N11) or the destination node device (N11; N01) as destination identification information, node related information within the first frame data, and the node related information of the node device, also generates third frame data that does not include the node related information within the first frame data, and transfers the generated second and third frame data to another node device (N02, N04; N08).
Various embodiments are disclosed for a services policy communication system and method. In some embodiments, an intermediate networking device provides a service intermediary or intermediate connection between a network and one or more communications devices; implements a service profile set for assisting control of the intermediate networking device use of a service set on the network, wherein the service profile set includes one or more service profiles, each profile being associated with either the intermediate networking device or a communications device, each profile further including a plurality of service policy settings; and monitors use of the service set based on the service profile set, in which the implementation of the first service profile set is verified.
Methods and apparatuses for identifying a physical link interconnecting network devices and/or correlating a designation of an interface on a network device to a physical location of the interface on the network device are disclosed herein. A method for identifying a physical link interconnecting a network device and a peer network device, where the network device and the peer network device each have an interface and a corresponding indicating light, may include: sending a packet from the interface of the network device to the interface of the peer network device over the physical link; causing the indicating light corresponding to the interface of the peer network device to blink at a predetermined cadence for a predetermined period of time upon receipt of the packet to enable recognition of the peer network device.
A communication system includes a transmission device configured to transmit a packet and a reception device configured to receive the packet. The reception device is equipped with a behavior information acquisition unit, a model specification information acquisition unit, and a model specification information transmission unit. The behavior information acquisition unit acquires behavior information representing the behavior of a packet before the packet reaches the reception device from the transmission device. The model specification information acquisition unit acquires model specification information for specifying a mathematical model representing the behaviors of a plurality of packets based on the acquired behavior information. The model specification information transmission unit transmits the acquired model specification information to the transmission device. The transmission device is equipped with a model specification information reception unit. The model specification information reception unit receives model specification information.
A network device includes a group of high speed redundant transmission lines and a switch. The switch is configured to select one of the high speed redundant transmission lines. The switch causes reflections and frequency dependent dispersions in the selected high speed redundant transmission line. The network device further includes a transmitting device that is configured to adjust signals transmitted over the selected high speed redundant transmission line so as to reduce the reflections and frequency dependent dispersions.
A method for transmitting a reference signal in a multi-antenna system is provided. The method includes: selecting at least one orthogonal frequency division multiplexing (OFDM) symbol in a subframe containing a plurality of OFDM symbols; allocating a channel quality indication reference signal (CQI RS) capable of measuring a channel state for each of a plurality of antennas to the selected at least one OFDM symbol; and transmitting the CQI RS, wherein the CQI RS is allocated to an OFDM symbol which does not overlap with an OFDM symbol to which a common reference signal to be transmitted to all user equipments in a cell or a dedicated reference signal to be transmitted to a specific user equipment in the cell is allocated.
A wireless communications system includes a base station, and a communications device configured to communicate with the base station via different wireless communications channels using a modulation standard wherein a received modulation differs from a transmitted modulation (e.g., due to environmental conditions) as measured by a modulation fidelity value. The base station and the communications device are configured to cooperate to determine respective modulation fidelity values associated with a current channel and an alternate channel based upon an estimated modulation fidelity calculated from the received modulation, and to selectively switch between the current channel and the alternate channel based upon the determined modulation fidelity values.
In one embodiment, a network device joins a first multicast tree to receive post-ad-inserted video content. The network device also joins a second multicast tree to receive the pre-ad-inserted video content. The content from the first multicast tree is forwarded by the network device to the receiver(s). The network device determines if it does not receive the content on the first multicast tree due to any failure, in which case, it delivers the content from the second multicast tree to the receiver(s). This enables the receiver to receive the original (pre-ad-inserted) content during the failure in first multicast tree. When the failure is resolved, the network device can go back to sending the content from the first multicast tree to the receiver(s).
Techniques for managing a wireless network when disruptive events occur are provided. In one aspect, a method for managing a heterogeneous wireless network having at least two classes of nodes is provided. The method includes the following steps. One or more network signaling activities are observed. If the network signaling activities exhibit a behavior that is associated with a power failure affecting at least one of the classes of nodes, network resources for transmission and processing of network signaling associated with one or more other of the classes of nodes are adjusted to accommodate the behavior.
A machine readable information storage medium, a reproducing method and apparatus which reproduces data from the storage medium, and a recording method and apparatus for recording data on the storage medium. The information storage medium includes a control area which stores within a data structure information usable by the recording or reproducing apparatus to record or reproduce the data on or from the storage medium. The information stored within the data structure includes a version corresponding to a specification, a revision number of recording speed, and an extended part version field.
An optical pickup device, an optical disk drive and method of controlling light performed by the optical pickup device are provided. The optical pickup device includes: a light transmitting system including an object lens for facing a medium having a multi recording layer for storing information, a light source system for providing a plurality of beams used to record information on or reproduce information from the multi recording layer via the light transmitting system, a light-receiving system disposed on a path of a beam reflected from the medium, and a light controller including a light control device for controlling stray light generated in the medium such that the stray light does not reach the light-receiving device.
Provided is an optical disc device including: an objective lens; a plurality of light-receiving elements each for outputting an output signal corresponding to a light amount of reflected light from the optical disc medium; a plurality of amplifiers each for amplifying the output signal from a corresponding one of the light-receiving elements; and a signal output circuit for outputting a focus error signal based on amplified signals from the amplifiers. The optical disc device executes focus servo control of controlling, based on the focus error signal, a position of the objective lens so as to keep constant a distance between the objective lens and a signal surface; moves the objective lens to a position at which accuracy of reading information from the optical disc medium becomes high; and thereafter adjusts a gain of each amplifier so that levels of the amplified signals become close to each other.
A method of controlling a deep power down mode in a multi-port semiconductor memory having a plurality of ports connected to a plurality of processors includes controlling the deep power down mode in the multi-port semiconductor memory such that activation/deactivation of the deep power down mode are determined in accordance with signals applied through various ports in the plurality of ports.
A circuit includes a first inverter including a first PMOS transistor and a first NMOS transistor, and a second inverter including a second PMOS transistor and a second NMOS transistor. A first node is connected to gates of the first PMOS transistor and the first NMOS transistor and drains of the second PMOS transistor and the second NMOS transistor. A second node is connected to gates of the second PMOS transistor and the second NMOS transistor and drains of the first PMOS transistor and the first NMOS transistor. The circuit further includes a first capacitor having a first capacitance connected to the first node; and a second capacitor having a second capacitance connected to the second node. The second capacitance is greater than the first capacitance.
A system is provided for high-speed communication between a memory controller and a plurality of memory devices. A memory controller, and a plurality of memory devices are provided. Additionally, at least one channel is included for providing electrical communication between the memory controller and the plurality of memory devices, an impedance of the channel being at least partially controlled using High Density Interconnect (HDI) technology.
Some embodiments include apparatuses and methods having first conductive lines, second conductive lines, a memory array including memory cells, each of the memory cells coupled between one of the first conductive lines and one of the second conductive lines. At least one of such apparatuses and methods can include a module configured to cause a first current from a first current source and a second current from a second current source to flow through a selected memory cell among the memory cells during an operation of storing information in the selected memory cell. Other embodiments including additional apparatuses and methods are described.
Each memory cell string in a generic NAND flash cell block connects to a Common Source Line (CLS). A value for applying to the CSL is centrally generated and distributed to a local switch logic unit corresponding to each NAND flash cell block. For source-line page programming, the distribution line may be called a Global Common Source Line (GCSL). In an array of NAND flash cell blocks, only one NAND flash cell block is selected at a time for programming. To reduce power consumption, only the selected NAND flash cell block receives a value on the CSL that is indicative of the value on the GCSL. Additionally, the CSLs of non-selected NAND flash cell blocks may be disabled through an active connection to ground.
A non-volatile memory device may include a semiconductor substrate including an active region at a surface thereof, a ground select line crossing the active region, and a string select line crossing the active region and spaced apart from the ground select line. A plurality of memory cell word lines may cross the active region between the ground select line and the string select line with about a same first spacing provided between adjacent ones of the plurality of word lines and between a last of the plurality of memory cell word lines and the string select line. A second spacing may be provided between the ground select line and a first of the plurality of memory cell word lines.
A nonvolatile memory cell is able to reduce the size per the unit area by employing a dual gate structure where the chalcogenide compound is used for a channel. The nonvolatile memory cell includes a phase-change layer, a first and a second gate that are in contact with sides of the phase-change layer to face each other across the phase-in change layer and control a current flowing through the phase-change layer by each gate being arranged to induce the phase transition of the phase-change layer independently of the other.
A circuit compatible with dynamic random access memories (DRAM) and static random access memories (SRAM) is disclosed. The circuit includes a substrate having a first conductivity type. A trench isolation region (850,852) is formed in the substrate. The trench isolation region has sides and a bottom formed below a face of the substrate. A first semiconductor region having a second conductivity type (868) is formed at the bottom of the trench isolation region. A second semiconductor region having the second conductivity type (870) is formed separately from the first semiconductor region adjacent a first side of trench isolation region and in conductive contact with the first semiconductor region.
A low-power programmable LSI that can perform configuration (dynamic configuration) at high speed and can quickly start is provided. The programmable LSI includes a plurality of logic elements and a memory element for storing configuration data to be input to the plurality of logic elements. The plurality of logic elements each include a configuration memory. Each of the plurality of logic elements performs different arithmetic processing and changes an electrical connection between the logic elements in accordance with the configuration data stored in the configuration memory. The memory element is formed using a storage element including a transistor whose channel is formed in an oxide semiconductor layer and a node set in a floating state when the transistor is turned off.
A power supply for a device which has a load, comprising a first resonant generator and a second resonant generator, coupled in parallel, each generator having a phase output. The power supply further comprises a control circuit coupled to the first and second generators controlling the first and second phase outputs, wherein the first phase output and the second phase output are summed to provide a variable power supply to the load.
A rectifier system for a primary AC electrical power distribution system comprising a PFC circuit connected onto the primary distribution system which delivers a DC power supply and means for storing electrical energy connected to the outputs of the PFC via a switching circuit. This circuit is controlled in such a manner as to effect either the discharge of the electrical energy stored in the storage means onto the DC power supply line, or the charging of the storage means by the DC power supply line. A first control circuit determines the state of operation of the switching circuit by comparing the value of the voltage on the power supply line with a first reference voltage. A second control circuit regulates the power delivered by the PFC over the power supply line by comparing the voltage present at the output of the storage means with a second reference voltage.
In at least one embodiment of the disclosure, an electrooptic device includes first and second mounting terminals arranged on a terminal portion to be aligned in a direction intersecting with a side of the electrooptic substrate. A first flexible substrate is connected to the first mounting terminal. A second flexible substrate is connected to the second mounting terminal and arranged to be superimposed on the first flexible substrate. A resin member covers the first flexible substrate, the second flexible substrate and the electrooptic substrate.
An assembly can include a base with a hinge axis, a hinge end, an opposing end, a latch surface disposed intermediate the hinge end and the opposing end, a latch with a prong and an actuation surface, and a button seat disposed intermediate the latch surface and the opposing end where the button seat includes a button stop; a spring; and a button configured for translation in the button seat where the button includes a retainer and a latch contacting surface extending outwardly away from a back side where, for an un-depressed orientation, the spring biases the retainer against the button stop to maintain a gap between the latch contacting surface and the actuation surface of the latch. Various other apparatuses, systems, methods, etc., are also disclosed.
A mesoporous, nanocrystalline, metal oxide construct particularly suited for capacitive energy storage that has an architecture with short diffusion path lengths and large surface areas and a method for production are provided. Energy density is substantially increased without compromising the capacitive charge storage kinetics and electrode demonstrates long term cycling stability. Charge storage devices with electrodes using the construct can use three different charge storage mechanisms immersed in an electrolyte: (1) cations can be stored in a thin double layer at the electrode/electrolyte interface (non-faradaic mechanism); (2) cations can interact with the bulk of an electroactive material which then undergoes a redox reaction or phase change, as in conventional batteries (faradaic mechanism); or (3) cations can electrochemically adsorb onto the surface of a material through charge transfer processes (faradaic mechanism).
A high energy density multilayer ceramic capacitor, having at least two electrode layers and at least one substantially dense polycrystalline dielectric layer positioned therebetween. The at polycrystalline dielectric layer has an average grain size of less than about 300 nanometers, a particle size distribution of between about 150 nanometers and about 3 micrometers, and a maximum porosity of about 1 percent. The dielectric layer is selected from the group including TiO2, BaTiO3, Al2O3, ZrO2, lead zirconium titanate, and combinations thereof and has a breakdown strength of at least about 1100 kV per centimeter.
A safety switching device, with which a safety-related device, can be set into a safe state. The safety switching device has a microprocessor or microcontroller, which can set an electric drive to be protected into a safe state both if an emergency circuit breaker, protective door switch, and/or two-hand switch is activated and also if there is faulty operation of the safety-related device or electric drive. For this purpose, the microprocessor is implemented such that it can determine from at least one analog signal to be measured whether a predetermined parameter lies outside a predetermined operating range. In addition, the microprocessor can be a component of a safety device which is constructed for multiple-channel control of a safety-related electric drive. In this way, the safety switching device can respond to several safety functions independent of each other in order to set an electric drive into a safe state.
A device, such as an intelligent electronic device (IED), provides a monitoring and protective function for a power system. The protective function uses stimulus acquired from the power system to detect power system conditions and to take one or more protective actions responsive thereto. The device may detect arc flash events in the power system based upon electro-optical and/or current stimulus measurements obtained therefrom. The stimulus measurements may be recorded to use in metering, validation, identifying detector misoperation, and/or event oscillography.
An electronic circuit breaker includes controllable mechanical contacts adapted to connect a primary power source to at least one load; and control circuitry for monitoring the flow of power from the primary power source to the load, detecting fault conditions and automatically opening the contacts in response to the detection of a fault condition. A primary power source supplies power to the control circuitry when the contacts are closed, and an auxiliary power source supplies power to the control circuitry when the contacts are open, whether by a trip or by manual opening.
A method and system for providing a read magnetic transducer having an air-bearing surface (ABS) is described. The magnetic read transducer includes a first shield, a read sensor stack, an antiferromagnetic (AFM) tab, and a second shield. The read sensor stack includes a pinned layer, a spacer layer, and a free layer. The spacer layer is nonmagnetic and between the pinned layer and the free layer. A portion of the read sensor stack is at the ABS. The AFM tab is recessed from the ABS and adjacent to a portion of the pinned layer. The read sensor resides between the first shield and the second shield.
A tape drive system according to one embodiment includes a magnetic head. The magnetic head includes first and second beams each having a tape bearing surface, a face, a recess in the tape bearing surface thereof, the faces of the beams facing either towards each other or away from each other; a first chip being positioned in the recess of the first beam; and a second chip being positioned in the recess of the second beam, wherein each chip has circuitry selected from a group consisting of read elements, write elements, and combinations thereof, wherein a tape bearing surface of each chip is generally aligned with the tape bearing surface of the associated beam, and wherein an end of each chip is generally aligned with the face of the associated beam. The system also includes a drive mechanism and a controller.
According to one embodiment, a magnetic recording head includes a disk-facing surface configured to face a recording layer of a recording medium, a main magnetic pole includes a distal end located on the disk-facing surface and configured to apply a recording magnetic field to the recording layer of the recording medium, a leading shield on a leading side of the main magnetic pole, opposed to the distal end of the main magnetic pole across a gap, a high-frequency oscillator between the leading shield and the distal end of the main magnetic pole, and a recording coil configured to excite the main magnetic pole with a magnetic field.
A read/write head is moved across a contact-start-stop (CSS) zone on a data storage disk during the spin-up and/or spin-down of the disk. Moving the head during spin-up and/or spin-down may reduce the concentration of wear along a surface of the CSS zone.
A screen member diffuses a bundle of rays of light projected from a laser scanner such that the bundle of rays of light is guided to a viewing range. The screen member includes a plurality of optical elements. A surface of each optical element forms a curved surface that diffuses the bundle of rays of light, which enters the curved surface. The optical elements are arranged in a lattice pattern at each corresponding pitch that is set to adjust a peak-to-peak interval of diffracted rays, which are formed in the viewing range by diffraction of the bundles of rays diffused by the plurality of optical elements, to a value that is equal to or smaller than a diameter of a pupil of the viewer.
An electromagnetically induced transparent (EIT)-based photonic logic gate. The electromagnetically induced transparent (EIT)-based photonic logic gate is a photonic crystal (PC) and electromagnetically induced transparent (EIT)-based stacked layer which is constituted by a photonic crystal (PCs) layers and an electromagnetically induced transparent material layers. For the photonic crystal (PCs) and electromagnetically induced transparent (EIT)-based stacked layer, a probe field is an input signal which is emitted from the photonic crystal layer and a control field is a control signal which is emitted from the electromagnetically induced transparent material layers. The probe field is an input signal which is emitted from the electromagnetically induced transparent material layers. By varying the detune frequency of probe field and Rabi frequency of control field, the band gap structure can be adjusted. Henceforth, the tunable optical electromagnetically induced transparent (EIT)-based photonic logic gate can be achieved.
Since, for detecting a two-dimension code added to a document, the detection processing is performed by checking the four corners of the read image, if the user specifies an A3 size as a reading size of an image in the copy of an A4-size document, the two-dimensional code is not detected. When the document size detected by the copying machine differs from the reading size of the image specified by the user, the processing for the two-dimensional code detection is performed checking the four corners of the region of the document size detected by the copying machine.
A method implemented in a printer controller for printing oversized image data is described. During printing, a process is executed to determine whether the data to be printed have a page data size that exceeds the maximum printable area for the specified recording medium. The page data size of a given page is the total extent (width and height) of the data objects on the page. If the page data size exceeds the maximum printable area, the process determines whether the portions of the image that exceeds the maximum printable area are background data. If they are, a portion of the background data that exceeds the maximum printable area are cut off, and the document is printed without reducing the size of the non-background data. The method can also be implemented on a print driver.
A method comprising receiving digital image data from a plurality of digital image sources, which contains digital images and source identifiers. A plurality of processors are provided for simultaneously processing the digital images according to stored processing instructions which correspond to the source identifiers.
A printing apparatus includes a storage section which stores printing jobs to be printed on a recording paper sheet; a transport section which transports the recording paper sheet; a printing section which performs the printing on the recording paper sheet transported by the transport section based on one of the printing jobs stored in the storage section; an occurrence rate judging section which calculates an occurrence rate of a jam of the recording paper sheet in the transport section during the printing based on each of the printing jobs stored in the storage section, and which compares a first occurrence rate which is the occurrence rate of a first printing job stored first in the storage section with a second occurrence rate which is the occurrence rate of a second printing job stored second in the storage section; and a control section which controls the printing section.
A system comprises a plurality of image forming apparatuses, wherein a first image forming apparatus includes: a correspondence determination unit that determines which function in the first image forming apparatus the service provider of the first image forming apparatus corresponds to; a provider determination unit that determines a second image forming apparatus in the plurality of image forming apparatuses that includes the same service provider as the service provider of the first image forming apparatus; a license verification unit that verifies whether license information is assigned to the service provider of the second image forming apparatus determined by the provider determination unit; and an assignment unit that assigns, to the second image forming apparatus to which the license information is not assigned, license information of the service provider from the first image forming apparatus to the second image forming apparatus and server relation information that is information for accessing a server.
An image forming device includes a storage unit that stores a program to use the device itself as image data of a virtual recording medium; and a controller including: a detecting unit that detects connection of another device using the device itself; a transmitting unit that transmits, if the connection is detected by the detecting unit, discriminates an information of the device itself to another device using the device itself; a receiving unit that receives a response information based on the discriminating information; and wherein another device using the device itself is available to access the image data of the virtual recording medium on the basis of the response information.
According to one embodiment, an information management server device determines whether to permit the duplicating of the original data selected in the duplication source selection information. The information management server device reads the management ID of the original data related to the management ID in the duplication request and the electronic data body related to the entity ID with reference to the first and second storage units when the determination result for the original data has shown that the duplicating is permitted and creates duplicated original data by giving a new management ID to duplicated data obtained by duplicating the electronic data body.
In a device management device, a storage unit stores device information pieces of devices on a network, an acquisition unit acquires a device information piece of one of the devices via the network, and a detection unit compares the device information piece with each of the device information pieces stored in the storage unit, and detects at least one of installation, movement, addition, change, and disposal events with respect to the one of the devices. A transforming unit transforms both identification information of the one of the devices and device information items corresponding to the detected event into data that enables an asset management device to manage the data. A transmission unit transmits the data to the asset management device via the network.
An analyzer comprises: a sample stream forming section for forming a sample stream including particles; a light source; an optical fiber bundle formed by a plurality of optical fibers, into which light from the light source enters, and which emits light onto the sample stream; and an imaging device for imaging a particle in the irradiated sample stream.
The present invention relates to a device and method for the high speed quantitative measurement of biomolecular targets on the surface or in the body of a planar medium for biological analysis. The method, according to the invention, includes the following, steps: a) at least two laser beams (F″) are focused and overlaid on each measuring point of said medium by the simultaneous intersection of these beams to extract a contained hot plasma (P), including a measured chemical element present in the targets and another chemical element exogenous to the targets and present in a known quantity on this medium; b) luminous emission rays for each plasma, corresponding to the quantified element and exogenous element, are detected and analyzed for each measuring point while measuring the brightness of these rays; then c) the concentration in each measuring point of the quantified element is determined through prior calibration of the rays of the qualified element to determine a correlation between the brightness of the rays, specific to said element, and the concentrations of the latter in mixtures of the quantified element and exogenous element in known proportions.
A Raman analyzer for analyzing light emitted from a Raman cell is provided that has a beam splitter configured to split the light emitted from the Raman cell into a first beam and a second beam. An atomic vapor filter can be used to filter a Raman scattered line from the first beam and a chopper system can periodically interrupt the first and second beams that are directed towards a photo detector, which can convert light from the first and second beams into an electrical signal. The signal output from the photo detector can optionally be amplified, digitized, Fourier filtered, and/or subjected to Fourier analysis.
A compact Raman analysis system combines a near-infrared (NIR) laser source, a 2D array collecting anti-Stokes Raman spectra, and a probe configured to measure complex solid samples, including pharmaceutical tablets and other large-area targets with reduced background fluorescence at relatively low cost. The system collects spectra from an area of 1-mm or greater, preferably 3-12 mm or more, facilitating the collection of statistically useful data from inhomogeneous and laser-sensitive samples, among other applications. Potential pharmaceutical applications include tablet dosage level measurements, as well as online and at-line quality-control (QC) monitoring opportunities. Other applications include tablet identification as a forensic tool to identify counterfeit pharmaceutical products; granulation and blend uniformity for improved formulation via better process understanding.
In an analysis system for detecting amounts of components contained in samples, many samples can be measured simultaneously in the whole of the system by use of compact inexpensive photometers. An LED with low heat generation and a long life span is used as a light source. Compactness is achieved by bended optical axis instead of a straight one. Components for bending an optical axis and components for condensing light to ensure an amount of light are in common use to reduce the number of components. Compactness, reduction of the number of components, and integration achieve easy optical axis alignment and precise measurement.
A system, method and computer program product provides for estimating the range of a target. An acquisition window of an imaging device is adjusted to fit a target at an unknown range in response to a user input. An angle subtended by the largest dimension of the target viewed from the acquisition window is determined. The range of the target is estimated from a largest dimension of the target and the angle subtended by the largest dimension of the target. The device may be a man-portable aircraft survivability equipment (ASE) system trainer (MAST), or any simulator simulating a man-portable air defense system (MANPADS).
Example embodiments are directed to a maskless exposure device and an alignment method. The alignment method performs an overlay of each layer of a plurality of layers on a substrate using a virtual mask in a maskless exposure technique. The maskless exposure device and the alignment method use a virtual mask instead of a physical mask used in a conventional mask exposure, a virtual target mark instead of an alignment mark used in the conventional mask exposure, and perform an overlay per layer, such that the deposition exposure can be achieved in the maskless exposure.
An exposure method and apparatus simultaneously transfer patterns with various pitches with high resolution. On the pupil surface of an illumination system, at least first and second pairs of areas are set. The distribution of intensity of light over the pupil surface is set so that the intensities of light of the second pair of areas is smaller than that of the first pair of areas.
A lithographic apparatus includes an illuminator configured to provide a projection beam of radiation and a polarization controller configured to control an intensity of a preferred state of polarization of the projection beam. The lithographic apparatus further includes a support configured to hold a patterning device. The patterning device configured to pattern the projection beam according to a desired pattern. The apparatus also includes a substrate table configured to hold a substrate, and a projection system configured to project the patterned beam onto a target portion of the substrate to form a patterned image on the substrate.
Provided is a liquid crystal display panel which allows high quality display by suppressing a disturbance of liquid crystal molecule alignment caused by formation of liquid crystal alignment control protrusions. The liquid crystal display panel of the present invention is a liquid crystal display panel including a pair of substrates and a liquid crystal layer sandwiched between the pair of substrates, one of the pair of the substrates including a colored layer, a light-shielding layer, and walled liquid crystal alignment control protrusions projecting toward the other substrate, the liquid crystal alignment control protrusions including a main protrusion and a secondary protrusion lower than the main protrusion, the secondary protrusion being provided on the colored layer along a borderline between the colored layer and the light-shielding layer, and the total of the height of the secondary protrusion and that of the colored layer being substantially the same as the height of the light-shielding layer.
A color filter substrate for a liquid crystal display device includes a transparent insulation substrate, a black matrix defining first and second pixel areas on the transparent insulation substrate, and a color filter in the first and second pixel areas for displaying first and second colors, respectively, wherein a surface of the black matrix having recesses at sides thereof adjacent to the first and second pixel areas, respectively, for preventing an overflow of the first color from the first pixel area into the second pixel area.
A display device (10, 20, 30) is provided, the display device (10, 20, 30) comprising an LED array (33, 35, 12) working both as a backlight source for an LCD panel (31) and as an ambient light source providing ambient light with properties dependent on the image content presented by the LCD panel (31). A corresponding method and computer program product is also provided.
This television set includes a front housing, a first board mounted on the front housing, having a first connecting portion, a rear housing, and a second board mounted on the rear housing, having a second connecting portion connected to the first connecting portion, while the rear housing includes an exposing portion for exposing at least the first connecting portion in a state of being mounted to the front housing.
There is provided an image/video processor comprises an embedded memory for image/video data that including a plurality of unit memory blocks including a plurality of memory cells; and a controller configured to store each bit of image/video data received through an input/output unit in each memory cell, read the image/video data stored in each memory cell of the embedded memory, and output the image/video data through the input/output unit, wherein at least two or more memory cells included in the plurality of memory cells have different sizes, the controller assign each bit of the image/video data depending on the importance of the image/video data and a size of the memory cell, and as the size of the memory cell is larger, a bit of image/video data of high importance is assigned.
A method and system are provided in which a processor may perform fast source switching and/or automatic source switching by keeping active the signals from multiple sources. The processor may determine which received video signals are locked-in within a front-end portion of the processor. A video signal may be locked-in when a demodulator is locked to a carrier in the video signal or when a decoder is programmed to decode the video signal. During operation, the processor may switch from processing a current video signal to processing a video signal selected from those determined to be locked-in. The processor may maintain active a portion of a back-end portion of the processor to handle the switch from the current video signal to the selected video signal. The processor may switch to process between video signals when a predetermined content and/or metadata is detected within one of the video signals.
An image display apparatus is provided which includes an image display unit for displaying a still image or a moving image, an imaging unit for capturing an image in a direction in which the image display unit is displaying the still image or the moving image, a detecting unit for detecting a light emitting unit of a remote controlling device included in the image captured by the imaging unit, and detecting a movement amount of the light emitting unit within the captured image, the remote controlling device controlled by a user, and a control unit for controlling a movement amount of a pointer displayed on the image display unit, depending on the movement amount of the light emitting unit detected by the detecting unit.
A system, apparatus, and method are provided for a video detector that computes a measure of how much a given video content resembles one of a de-interlaced video content or a progressive video content. More particularly, the present invention determines the position of original and interpolated lines and the scaling factor of an input content whenever that content was scaled after de-interlacing.
An imaging device includes a welded part on a lens barrel side that is hardened after a contact portion of a lens barrel or a contact part on the lens barrel side is softened, where the contact portion of the lens barrel and the contact part on the lens barrel side are fixed, and a welded part on a light-receiving circuit side that is hardened after a contact portion of the light-receiving circuit or a contact part on a light-receiving circuit side is softened, where the contact portion of the light-receiving circuit and the contact part on the light-receiving circuit side are fixed.
R, G and B LEDs are used as a light source of an electronic flash. Electric energy is supplied to a capacitor to the LEDs. A system controller controls light emitting amounts of the LEDs so that a color temperature of the electronic flash light becomes a color temperature that has been manually set with a color temperature setting switch or a color temperature of a light source determined by color temperature sensors.
A digital camera described herein includes an analyzer component that analyzes a histogram of a first image, wherein the first image has a first resolution. The digital camera also includes a setter component that sets an exposure time for capturing a second image based at least in part upon the analysis of the histogram of the first image, wherein the second image has a second resolution, and wherein the first resolution of the first image is less than the second resolution of the second image.
A system (100) for the adaptive imaging of a scene includes a digital light processing apparatus (150) adapted for controllably reflecting an image of the scene in at least a first direction to thereby reflect an intensity modulated image of the scene along at least the first direction, an image detector (140) for detecting the intensity modulated image of the scene and generating corresponding image data, and an image data processor (154) for processing the image data into control data and providing the control data to the digital light processing (150) apparatus for control thereof.
An image pickup apparatus capable of switching between image pickup modes is provided. An image pickup apparatus includes; an image pickup lens; an image pickup device receiving light from the image pickup lens to obtain image pickup data; an image processing section for performing image processing on the image pickup data obtained from the image pickup device; a microlens array section including a plurality of microlenses, and arranged between the image pickup lens and the image pickup device; and a driving section changing a relative distance between the microlens array section and the image pickup device.
A method of scanning a scene using an image sensor includes (a) dividing the scene into multiple first portions; and scanning a first portion for presence of objects in an object class. The method further includes continuing the scanning of the multiple first portions for presence of other objects in the scene. The method also selects a second portion of the scene, in response to detecting an object in the first portion; and then tracking the object in the selected second portion. The second portion of the scene is selected based on estimating motion of the object detected in the first portion, so that it may still be located in the second portion.
An image processing method generates first developed image data by correcting first image data with use of a white balance correction value corresponding to flash light, generates second developed image data by correcting the first image data with use of a second white balance correction value corresponding to external light, calculates a combining ratio of each block based on a flash component and an external light component of each of blocks into which the first image data is divided, and combines the first developed image data and the second developed image data according to the calculated combining ratio.
Pictures can be taken with multiple (e.g., two) cameras, and the statistics associated with any of those pictures can be used to correct (e.g., color balance) any of the other pictures. Generally speaking, first image data captured by a first camera is accessed (e.g., retrieved from memory). Similarly, second image data captured by a second camera is accessed. The first image data and second image data are acquired at or about the same time using the first and second cameras together (e.g., at the same location, so that each camera is subject to the same light source). The first image data can then be processed (e.g., color balanced) using information that is derived using the second image data.
An apparatus having a first circuit is disclosed. The first circuit may (i) receive an input signal from an electro-optical sensor and (ii) generate a compressed signal. The first circuit generally includes re-sampler circuits configured to process the input signal to generate output samples. Each output sample may be a linear combination of at least two input samples. Video processing may include at least two tasks among (a) generating a video signal by converting the input signal for an external video monitor, (b) generating a video signal by converting the input signal for a preview screen and (c) generating a video signal by resolution reduction of the input signal before compression. At least two re-sampler circuits may perform different tasks. Still processing generally includes a noise reduction of an input image of the input signal using at least one of the at least two re-sampler circuits.
An imaging device of the present invention comprises a photographing lens for forming a subject image, an imaging section for converting the subject image to image signals and outputting the image signals, a storage section for storing image data obtained based on the image signals output from the storage section, an attitude detection section for detecting an attitude of the imaging device, an image detection section for detecting a face image contained in the image signals, and a storage control section for determining storage start and storage end for the image data, based on detection results of the attitude detection section and detection results of the image detection section.
Apparatus, systems, and methods may operate to obtain an image of a consumer electronic device, the image comprising at least one visual indication of a first operating state of the consumer electronic device, and to transmit one or more commands to the consumer electronic device to change to a second operating state different from the first operating state, responsive to determining the first operating state by extracting information associated with the at least one visual indication from the image. The commands may be determined by accessing a database having control instructions associated with the consumer electronic device. Additional apparatus, systems, and methods are disclosed.
A method and a device for adjusting depth perception, a terminal including a function for adjusting depth perception and a method for operating the terminal are provided. The method for adjusting depth perception includes: obtaining color and depth videos of a user; detecting a user's position based on the obtained depth video of the user; calculating a range of maximum and minimum depths in a 3-dimensional (3D) video according to the detected user's position; and adjusting a left and right stereo video generating interval of the 3D video to be rendered so as to satisfy the calculated range of the maximum and minimum depths. Therefore, during a 3D or multi-view video call, the 3D video having a three-dimensional effect optimized according to the user's position may be provided.
A video conferencing device that includes a camera and display system captures video of local participants and displays incoming video feeds from remote locations. For example, incoming video feeds of the remote participants may be displayed on an outward-facing circular screen mounted on a central pedestal. One or more cameras are also mounted on the pedestal in order to capture video of the local participants. The incoming video feed can be arranged or organized in various ways on the display based in part on the quantity of incoming feeds and/or the needs of the conference-room participants.
The present invention relates to a method for displaying a video image on a digital display device during a video frame comprising at least two distinct time segments for displaying a grey level. The cells of the device are able to take selectively an on state or an off state. The cells are able moreover to change state several times during a video frame. According to the invention, the cells change state at most once during each time segment of the video frame. The invention makes it possible to attenuate or suppress disturbances related to the temporal integration and to the sequential displaying of the R, G, B components of the video image.
Systems and methods are provided for use in correcting flicker of a display (e.g., an LCD display). For example, correction may employ the insertion of at least one transition data frame between display data frames for use in displaying a transition image by pixel elements of the display such that a user perceives display of a constant average luminance by the pixel elements.
A mobile terminal includes a wireless communication unit communicating with at least one electronic device, a display including a touch screen receiving touch input and displaying contents, and a controller executing an application related to the contents and reducing a first area of the touch screen on which the contents are displayed in response to a first input, thus reducing a size of the displayed contents. The controller further displays information about the at least one electronic device at a second area of the touch screen generated when the first area is reduced.
Methods for a joy-stick graphical control in 3D space are disclosed. 3D data are rendered with a certain orientation in a 3D rendering space within a region of a 2D screen. One or more cross sectional views of the 3D data are rendered in the 3D rendering space where the cross sectional views are derived based on corresponding one or more 3D planes cutting through the 3D data at a 3D location. On one 3D plane, a joy-stick control is rendered in the 3D space at a pose determined based on the joy stick.
Given two video sequences, a composite video sequence can be generated (15) which includes visual elements from each of the given sequences, suitably synchronized (11) and represented in a chosen focal plane. A composite video sequence can be made also by similarly combining a video sequence with an audio sequence. In the composite video sequence, contestants, action figures or objects can be shown against a common background (12) even if the given video sequences differ as to background, with the common background taken from one or the other of the given sequences, for example. Alternatively, a different suitable background can be used, e.g. as derived from the given video sequences, as obtained from another video sequence or image, or as otherwise synthesized.
Embodiments render polygonal data in a geographical information systems according to a viewing perspective of a geographical information systems user. The user may define a viewing perspective. A bounding box may be determined that includes the area being viewed in the viewing perspective. A spherical coordinate to Cartesian coordinate matrix may be determined to approximately convert spherical coordinates of the polygonal data to Cartesian coordinates to be rendered by a graphics processor. The graphics processor may then render the polygonal data and bias detail towards the viewing perspective of the user.
Disclosed herein are methods, apparatuses, and systems for accessing vertex data stored in a memory, and applications thereof. Such a method includes writing vertex data of primitives into contiguous banks of a memory such that the vertex data of consecutively written primitives spans more than one row of the memory. Vertex data of two consecutively written primitives are read from the memory in a single clock cycle.
The present disclosure includes, among other things, systems, methods and program products for generating animation keyframes and a corresponding 3D animation sequence from a plurality of 2D images.
A system for controlling a rendering engine by using specialized commands. The commands are used to generate a production, such as a television show, at an end-user's computer that executes the rendering engine. In one embodiment, the commands are sent over a network, such as the Internet, to achieve broadcasts of video programs at very high compression and efficiency. Commands for setting and moving camera viewpoints, animating characters, and defining or controlling scenes and sounds are described. At a fine level of control math models and coordinate systems can be used make specifications. At a coarse level of control the command language approaches the text format traditionally used in television or movie scripts. Simple names for objects within a scene are used to identify items, directions and paths. Commands are further simplified by having the rendering engine use defaults when specifications are left out. For example, when a camera direction is not specified, the system assumes that the viewpoint is to be the current action area. The system provides a hierarchy of detail levels. Movement commands can be defaulted or specified. Synchronized speech can be specified as digital audio or as text which is used to synthesize the speech.
There is provided a system and method for artist friendly control of three-dimensional object shading, particularly hair. A methodology is disclosed for deriving a pseudo scattering function over a domain of Artist Friendly Controls (AFCs) from a physically based scattering function over a domain of Physically Based Controls (PBCs). The pseudo scattering function can provide intuitive decoupled adjustments of specific important visual characteristics while still providing a convincing and aesthetically pleasing result. An end user such as an artist may thus control the values, or AFCs, to implement specific aesthetic features for the shading of objects as seen on a display. The pseudo scattering function may be utilized for single scattering and multiple scattering models of hair shading.
A method of synchronizing a textual view, a block diagram view and a three-dimensional view of the system being modeled is provided. Aspects of the model can be displayed via a textual viewer, a block diagram viewer and a 3D viewer in an embodiment. A user may make a change to the block diagram representing the model via the block diagram viewer interface and changes may be dynamically made to the textual representation of the model via the textual viewer and to the 3D representation of the model via the 3D viewer. Exemplary embodiments may maintain synchronization of model views to allow dynamic updating of model views as determined by an environment in which the model views are operating.
One object is, when a thin film transistor whose channel is formed using an amorphous semiconductor is used for a driver circuit formed using only n-channel transistors or p-channel transistors, to provide a driver circuit in which the threshold voltage is compensated in accordance with the degree of change in the threshold voltage. In the driver circuit which includes a unipolar transistor including a first gate and a second gate which are disposed above and below a semiconductor layer with insulating layers provided therebetween, a first signal for controlling switching of the transistor is inputted to the first gate, a second signal for controlling a threshold voltage of the transistor is inputted to the second gate, and the second signal is controlled in accordance with a value of current consumption including a current which flows between a source and a drain of the transistor.
An electrophoretic display includes: a plurality of spatially divided cells; and plural types of color substances contained in each of the cells wherein a display color is controlled by controlling electrophoresis of the colored substances within the cells, wherein each of a first cell, a second cell and a third cell included in the plurality of cells includes a first color substance corresponding to a mutually differing one of three primary colors in additive color mixing or subtractive color mixing and a second color substance in a relationship of complementary colors with the first color substance, wherein the first cell is controlled to be in a display state by the first color substance, and the second and third cells are controlled to be in a display state by the second color substance, respectively.
A position indicator for use with a digitizer is provided. The position indicator generates a response to an alternating field received from the digitizer. The position indicator includes a core formed of a composition including a soft magnetic metal powder mixed with a resin binder, and at least one coil provided around the core configured to generate the response to the alternating field based on the alternating field received from the digitizer.
Waveguide structures and optical elements for use in an optical touch input device are disclosed. The disclosed waveguide structures and optical elements allow for reduced bezel width and simplified assembly of optical touch input devices, and relaxed component tolerances.
A method of manufacturing an organic light emitting diode display includes forming an organic layer on a support, forming a touch sensor on the organic layer, the touch sensor including a touch electrode pattern and a polarizing layer, separating the touch sensor from the support by removing the organic layer, and attaching the touch sensor to an organic light emitting diode display panel.
A method of fabricating touch panel includes the following steps. A base is provided. A first transparent conductive layer is formed on the base. A first screen printing process is performed to form a first patterned sacrificial layer on the first transparent conductive layer, and the first patterned sacrificial layer is used to pattern the first transparent conductive layer to form a patterned sensing pad layer. A second screen printing process is carried out to form a patterned insulating layer. A second transparent conductive layer is formed on the base. A third screen printing process is performed to form a second patterned sacrificial layer, and the second patterned sacrificial layer is used to pattern the second transparent conductive layer to form a patterned bridge line layer.
On a sub-display 14c, a plurality of first user-defined keys 53, bank switch keys 51 and an edit key 52 which are software keys are displayed. Immediately below the sub-display 14c, second user-defined keys 50a to 50d which are hardware keys arranged as if the arrangement of the first user-defined keys 53 were extended are provided. The sub-display 14c also displays user-definition name areas 54 for displaying respective names of user-definitions assigned to the second user-defined keys 50a to 50d. By a manipulation of one of the user-defined keys, a function assigned to the manipulated user-defined key is executed. By a manipulation of the edit key 52, a setup screen on which the display size and the like of the first user-defined key are specified is displayed on a separate main display 14a, 14b.
Systems and methods are employed for implementing haptics for pressure sensitive keyboards, such as the type of keyboards having keys that produce alternating digital open/short signals that emulate actuation of conventional “momentary on” digital keys. The disclosed systems and methods may be implemented to provide haptics for both touch typing and variable pressure sensitive operation of a pressure sensitive keyboard. Users of a variable pressure keyboard may be provided with a variable pressure haptics effect, e.g., to enable the user to intuitively understand from the haptics vibration produced by the key how much pressure they are applying to a given key at any given time. Vibration characteristics (e.g., vibration rate, vibration waveform pattern, etc.) of a given pressed key may be varied in real time in coordination with, or in response to, corresponding changes in user pressure applied to the same given key.
An operation input device includes: angular velocity detecting means for detecting an angular velocity; relative velocity detecting means for contactlessly detecting a relative velocity to a target object; distance detecting means for detecting a distance to the target object; and computing means for computing an amount of movement based on the angular velocity, the relative velocity, and the distance.
An integrated system comprising both imaging and computing capabilities comprises a light valve and a CPU, as well as other functional members for performing computing and imaging.
The present disclosure relates to a liquid crystal display device including a timing controller and a method for updating the software of the timing controller. The present disclosure suggests liquid crystal display device comprising timing controller including a processor configured to execute software for modulating digital video data to be supplied to the data driving circuit and selecting the backlight dimming data, and a timing control signal generator configured to generate timing control signals to control operating timings of the data driving circuit and the gate driving circuit.
An image display device includes: an optical modulation element having a plurality of pixels; light sources illuminating the optical modulation element, each of which is independently controlled; a light source control value setting section setting control values for each of the light sources according to the grayscale of each pixel of an input image; optical sensors provided on areas of “n” pixels, respectively, where the “n” is an integer equal to or greater than 1; an illumination detection section detecting the illumination of the areas by the optical sensors; and a grayscale control section processing to correct grayscale of each pixel based on the detected illumination and controlling the optical modulation element according to the corrected grayscales obtained by correction.
A display apparatus and a backlight scanning method thereof are provided. The display apparatus having a backlight illuminator includes a parameter generator for generating parameters indicative of motion features of a video signal; and a backlight driver for driving the backlight illuminator by generating a scanning signal which has a plurality of scanning pulses during a frame period and is adjusted according to the parameters generated at the parameter generator. The display apparatus and the backlight scanning method thereof drive the backlight by generating the scanning signal which has the plurality of the scanning pulses during the frame period and is adjusted according to the motion features of the video signal to be displayed, to thereby effectively mitigate the motion blur and the flicker.
There is a need for decreasing a variation in times for writing to TFT elements for pixels in a direction along the extension of a gate line in a liquid crystal display apparatus. A display apparatus includes a display panel having multiple gate lines and drain lines arranged in a matrix and a data driver for outputting a display data signal to each drain line. The data driver includes: an internal control signal generation circuit generating an internal control signal for setting a timing to output a data signal to a drain line of each block on a block basis by dividing the plurality of drain lines into multiple blocks; and a register circuit for recording a setting for division of the block, a setting for delay direction and width of a timing to output the data signal, and a setting for rising and falling of an internal control signal.
A liquid crystal display apparatus includes an auxiliary electrode between adjacent first and second scan signal lines, first and second thin film transistors with gate electrodes connected to the first and second scan signal lines, respectively, first and second pixel electrodes connected to one of a source electrode and a drain electrode of the first and second thin film transistors, respectively, a data signal line that is connected to the other of the source electrode and the drain electrode of the first and second thin film transistors, and a common electrode facing the pixel electrodes via a liquid crystal layer. The first and second pixel electrodes are adjacent along the data signal line. A potential difference between the auxiliary and common electrodes is greater than a potential difference between the first pixel electrode and the common electrode and a potential difference between the second pixel electrode and the common electrode.
In the present invention, there is provided a display panel driving method of the type wherein the total light emitting period length within a one-field period is controlled to variably control the peak luminance level of a display panel, including the step of: variably controlling, where the one-field period has N light emitting periods, N being equal to or greater than 2, the end timing of the ith light emitting period and the start timing of the i+1th light emitting period so as to satisfy the total light emitting period length within the one-field period, i being an odd number which satisfies 1≦i≦N−1 while i+1 satisfies 2≦i+1≦N.
There is provided an EL light-emitting device with less uneven brightness. When a drain current of a plurality of current controlling TFTs is Id, a mobility is μ, a gate capacitance per unit area is Co, a maximum gate voltage is Vgs(max), a channel width is W, a channel length is L, an average value of a threshold voltage is Vth, a deviation from the average value of the threshold voltage is ΔVth, and a difference in emission brightness of a plurality of EL elements is within a range of ±n %, a semiconductor display device is characterized in that A = 2 Id μ * C 0 A ( Vgs ( ma x ) - Vth ) 2 ≦ W L ≦ ( 1 + n 100 - 1 ) 2 * A Δ Vth 2 Δ Vth ≦ ( 1 + n 100 - 1 ) * A * L / W .
Disclosed is a pixel capable of finely controlling the amount of current and increasing the voltage range of a data signal. A pixel includes an organic light emitting diode, a first transistor, a storage capacitor, a load and an amplifier. The first transistor is coupled between a scan line and a data line, and supplies a data signal supplied to the data line to a first node when a scan signal is supplied to the scan line. The storage capacitor is coupled between the first node and a first power source, and charges a voltage corresponding to the data signal. The load is coupled between the organic light emitting diode and the first power source. The amplifier controls a voltage applied to the load corresponding to the voltage charged in the storage capacitor.
Apparatus and techniques that provide tuning elements in antenna devices to tune frequencies of the antenna devices, including composite right and left handed (CRLH) metamaterial (MTM) antenna devices. Examples of the tuning elements for CRLH MTM antenna devices include feed line tuning elements, cell patch tuning elements, meandered stub tuning elements, via line tuning elements, and via pad tuning elements tuning elements that formed near corresponding antenna elements such as the feed line, cell patch, meander stub, via line and via pad, respectively.
A mobile terminal including an antenna device including an antenna element and a first non-feeding element, a radio-frequency unit that receives a signal from the antenna element, first and second matching circuits connected to the antenna element, a first switch that selectively connects one of the first and second matching circuits to the radio-frequency unit, a second switch that selectively grounds the first non-feeding element, an attitude-detection unit that detects an attitude of the mobile terminal, and a control unit that controls the first and second switches based on an output of the attitude-detection unit.
A dual-band circularly polarized antenna is disclosed, which includes a ground metal plate, a dielectric substrate, a first microstrip radiation portion and a second microstrip radiation portion. The dielectric substrate is formed on the ground metal plate. The first microstrip radiation portion is formed on the dielectric substrate and has at least one pair of symmetric truncated corners. The second microstrip radiation portion is formed on the dielectric substrate and includes a plurality of radiation units. Each of the plurality of radiation units is extended from the first microstrip radiation portion along a first direction.
A method for calibrating an array antenna having a plurality of branches includes generating a test signal using a pseudo-random sequence assigned to one of the plurality of branches for each of the plurality of branches; adding the test signals to a useful signal of the antenna so as to form a summed signal emitted via the array antenna; receiving the summed signal with a receiver antenna; correlating the received summed signal with a replica of the pseudo-random sequence so as to produce a correlation result; estimating a characteristic of one of the plurality of branches by processing the correlation result; and calibrating the antenna based on the estimated characteristic.
Systems and methods of calibrating a successive approximation register analog-to-digital converter (ADC) are disclosed. A plurality of capacitor stages, a first capacitor array, and a first capacitor stage are coupled in parallel. A capacitance of the first capacitor stage is compared to a sum of capacitances of the plurality of capacitor stages and of the first capacitor array. In response to the comparing, the capacitance of the first capacitor stage is increased by increasing the capacitance of a second capacitor array if the capacitance of the first capacitor stage is less than the sum of the capacitances of the plurality of capacitor stages and of the first capacitor array.
A decoding apparatus and method store at least one table including at least one code, receive at least one instruction signal, and extract a symbol value and a symbol length from the at least one table based on the at least one instruction signal. The decoding apparatus calculates a target suffix length that minimizes the size of a generated table and minimizes the size of a non-prefix length of the at least one code.
This security system includes an activity detection portion detecting an activity of a monitored person in a house, a first communication portion acquiring a detection result (information about the activity) and an abnormality determination portion determining whether or not an abnormality is happening to the monitored person on the basis of the detection result and an activity history of the monitored person in the house and determining the extent of the abnormality of the monitored person.
Security systems may include sensing, networked communications, stealth, alarms, and countermeasures, any or all of which may adapt to threats. These systems may also include armor and barriers of concrete and/or steel. They can adapt to severity of threats, weather, and/or other situational aspects. They can anticipate at least some threats in order to obtain early warning and react more quickly to those threats. They can adapt by altering their configurations, including alterations in communication networking structures and methods, and changes in data-storage and processing duties at processing nodes. Defensive and/or offensive countermeasures can be employed to deter, confuse, trap, and/or disable terrorists. The systems are capable of self-maintenance, self-healing, and self-restoration as threats subside. The systems can include subsystems capable of autonomous operation. At least some of the systems and/or their subsystems are capable of allocating power among subsystems, and of regulating bandwidth utilizations.
A detection system for an enclosed container includes many nanosensors for detecting materials harmful to human beings within an enclosed container and transmitting a signal representing a condition thereof. The nanosensors are carried on a carrier material, such as a corrugated sheet. At least one detection device detects a condition of the nanosensors and outputs a signal responsive thereto, which can be received by a monitoring system external to the container. Containers which have harmful materials within them can be inspected or stopped before entering the country.
Techniques are described for providing remote device (e.g., thermostat, lighting, appliance, etc.) control and/or energy monitoring. A system monitors sensor data captured by one or more sensors that sense attributes relevant to user presence at one or more monitored properties and status of one or more energy consuming devices associated with the one or more monitored properties. The system analyzes the monitored sensor data and the monitored device status with respect to a set of one or more rules and performs an operation related to controlling the one or more energy consuming devices based on the analysis of the monitored sensor data and the monitored device status with respect to the set of one or more rules.
In a communication system including a RFID tag, which has a function to record information and a function to carry out wireless communication with an external device and is capable of transmission with using both FM modulation and AM modulation, and a reader/writer for writing and reading information onto and from the RFID tag via wireless communication, a transmission to transmit information from the RFID tag to the reader/writer is carried out with using one of the FM modulation and the AM modulation at the RFID tag. If the reader/writer fails to decode a signal transmitted with using the one of the FM modulation and the AM modulation, transmission with respect to the information is carried out with using the other of the FM modulation and the AM modulation at the RFID tag. In this manner, reading error of data sent from the RFID tag is prevented.
Systems and methods for activating one or more devices are disclosed. According to one embodiment, the device listens for an activate code, the activate code having a length field and a mask field, the mask field including a mask value, the length field specifying a length of the mask field to a final bit of the mask value. Upon receiving the activate code, the length field is compared to a stored length value for determining whether the length field meets a predefined criterion. If the length field meets the predefined criterion, an address of the activate value is loaded (if an address field is present) and the appropriate bits (mask value) of the mask field are compared to a stored activate value. An activate signal is generated if the mask value matches the stored activate value. The activate signal can be used to activate additional circuitry including the entire device.
A system can be for use with a number of reference tags disposed at respective reference locations in a coverage area. The reference tags can be configured to form a wireless mesh network. A system can include a first tag configured to communicate with the reference tags. The first tag can operate in a sleep mode and includes a motion sensor. The first tag is woken out of the sleep mode on a first periodic basis to communicate with the reference tags. The first tag is woken out of the sleep mode at a second periodic basis in response to motion signal from the motion sensor. The second periodic basis is more frequent than the first periodic basis. The system can also include a positioning system configured to receive data related to the communication between the first tag and the reference tags. The positioning system can be configured to process the data to determine a location of the first tag.
A fuse for a moderately hazardous environment comprising: (i) a fuse element; (ii) first and second terminals connected to the fuse element; and (iii) a metal enclosure placed around the fuse element, the enclosure configured to protect the environment from an opening of the fuse element, and wherein the first and second terminals extend from the metal enclosure.
A multi-winding inductor includes a first foil winding and a second foil winding. One end of the first foil winding extends from a first side of the core and wraps under the core to form a solder tab under the core. One end of the second foil winding extends from a second side of the core and wraps under the core to form another solder tab under the core. Respective portions of each solder tab are laterally adjacent under the magnetic core. A coupled inductor includes a magnetic core including a first and a second end magnetic element and a plurality of connecting magnetic elements disposed between and connecting the first and second end magnetic elements. A respective first and second single turn foil winding is wound at least partially around each connecting magnetic element. Each foil winding has two ends forming respective solder tabs.
An element for forming an induction component contains a coil body with a core and two radially projecting flanges, which are formed on the respective axial ends of the core and of which the one flange is designed to be attached to a printed circuit board and is larger than the other flange. On its outer side, the coil body is surrounded by a shielding ring, which sits on the larger of the two flanges. To this end, the shielding ring has an inwardly directed step on the lower end corner, the one limb of which step forms an abutment surface to be placed on the inner side of the flange. The other limb forms an abutment surface to be placed against the outer edge of the flange. The step preferably runs over the entire circumference of the shielding ring. As a result, an air gap formed between the upper flange and the inner side of the shielding ring is fixed in terms of its dimensions and position.
A transformer assembly includes a substrate having a first surface and an opposing second surface, a first spiral wound inductive coil formed on the first surface, and a second spiral wound inductive coil formed on the first surface; the first and second spiral wound inductive coils forming a double spiral arrangement on the first surface such that the first coil is inductively coupled to the second coil. An RF coil including the transformer assembly and a method of fabricating the transformer assembly are also described.
There is provided a magnetic field generator in which separation and dislocation of permanent magnets from their permanent magnet groups is prevented easily and reliably for a long period of time without sacrificing productivity. A magnetic field generator 10 includes a permanent magnet group 14a which is provided on a plate yoke 12a; a pole piece 16a which is provided in a first main surface of the permanent magnet group 14a, leaving an exposed region 18b thereon; a frame-like member 34 which is provided on the plate yoke 12a to surround the permanent magnet group 14a; and a flange-shaped member 36 which is provided in the pole piece 16a to cover the exposed region 18b. Presser bolts 44 are threaded into the frame-like member 34 and press an outer circumferential surface 18a of the permanent magnet group 14a directly or via insertion members 42. Presser bolts 48 are threaded into the flange-shaped member 36, and press the exposed region 18b of the permanent magnet group 14a directly or via insertion members 46. A plate yoke 12b has the same configuration.
A magnetic actuator unit is provided for a circuit breaker, such as a medium voltage vacuum circuit breaker. The magnetic actuator unit includes a core, a coil, an actuating shaft, a first movable plate, a second movable plate, and a non-magnetic flat insert arranged between the core and the second movable plate. The magnetic actuator unit configured to switch the circuit breaker ON and OFF by moving the first movable plate between an ON position and an OFF position. The non-magnetic flat insert and the second movable plate are configured to adjust a holding force of the magnetic actuator unit provided by the second movable plate at the OFF position. The holding force is sufficient for holding the second movable plate at the OFF position against outer forces that are acting on the magnetic actuator unit.
A power contact device comprises two stationary and movable contact elements, the two elements being in the form of two juxtaposed coiled turns arranged facing one another in the open position. Each turn is made from a material that is both magnetic and current conducting to constitute a single part acting as power contact, as coil generating a magnetic induction field, and as magnetic circuit performing strengthening and channelling of said magnetic field.
A signal transmission device includes: a first substrate and a second substrate; a first resonance section including a first resonator and a second resonator electromagnetically coupled to each other; a second resonance section disposed side-by-side relative to the first resonance section, and electromagnetically coupled to the first resonance section to perform a signal transmission between the first and second resonance sections; and a first shielding electrode disposed between the first resonator and the second substrate and partially covering the first resonator to allow at least an open end of the first resonator to be covered therewith, and a second shielding electrode disposed between the second resonator and the first substrate and partially covering the second resonator to allow at least an open end of the second resonator to be covered therewith.
A surface acoustic wave device includes: a sapphire substrate having a C-plane main surface; comb-like electrodes which excite surface acoustic waves formed on the main surface of the sapphire substrate; an aluminum nitride film which covers the comb-like electrodes and the main surface; and a silicon dioxide film which is formed on the surface of the aluminum nitride film.
A large scale integrated (LSI) circuit includes a first terminal, a second terminal, a transmitting circuit coupled to the first terminal and the second terminal, and a receiving circuit coupled to the first terminal and the second terminal. The first and second terminals are coupled to an external portion of the large scale integrated circuit. The external portion includes a first branching circuit, a second branching circuit coupled to the first branching circuit, and first and second antennas coupled to the second branching circuit.
A microwave pulse compressor has an elongated, cross-sectionally oversized waveguide resonator for decreasing the attenuation of the resonator, thereby increasing the resonator's QO The increased Q of the resonator guide results in more stored energy and greater output pulse power. The pulse compressor is symmetrically constructed to suppress high order modes that can be generated in oversized waveguides.
A microelectromechanical system (MEMS) device includes a resonator anchored to a substrate. The resonator includes a first strain gradient statically deflecting a released portion of the resonator in an out-of-plane direction with respect to the substrate. The resonator includes a first electrode anchored to the substrate. The first electrode includes a second strain gradient of a released portion of the first electrode. The first electrode is configured to electrostatically drive the resonator in a first mode that varies a relative amount of displacement between the resonator and the first electrode. The resonator may include a resonator anchor anchored to the substrate. The first electrode may include an electrode anchor anchored to the substrate in close proximity to the resonator anchor. The electrode anchor may be positioned relative to the resonator anchor to substantially decouple dynamic displacements of the resonator relative to the electrode from changes to the substrate.
There is provided an aging diagnostic device including: a reference ring oscillator (101) that constitutes a ring oscillator using an odd-numbered plurality of logic gates constituted using a CMOS circuit; a test ring oscillator (102) that constitutes a ring oscillator using an odd-numbered plurality of logic gates having the same configuration as that of the logic gate; a load unit (104) that inputs a load signal to the test ring oscillator (102); a control unit (105) that simultaneously inputs a control signal instructing a start of oscillation of the reference ring oscillator (101) and the test ring oscillator (102) to the reference ring oscillator (101) and the test ring oscillator (102); and a comparison unit (103) that compares differences in the amount of movement of pulses within the reference ring oscillator (101) and the test ring oscillator (102), respectively, in the same time.
A local oscillation generator (LO-GEN) maintains a fixed bandwidth using a voltage controlled oscillator (VCO) calibration module and gain calibration module that together compensate for variations in the VCO gain based on the oscillation frequency. During an open loop calibration of the LO-GEN, the VCO calibration module programs the VCO gain to an initial coarse value based on the oscillation frequency and then the gain calibration module adjusts the charge pump current to compensate for VCO gain changes.
A power management system, notably for a dual travelling wave tube amplifier, includes: two travelling wave tubes, each comprising one Anode Zero electrode, and an electronic power conditioner, the power management system being implemented in said electronic power conditioner and including power management means associated with each travelling wave tube, configured for setting the Anode Zero electrode voltage to a determined minimum value when a sleep mode is activated, the power management means maintaining the travelling wave tube operating power at a value below its nominal working range. A sleep mode can advantageously be combined with an RF-Mute mode.
The invention provides a switching system. The switching system comprises an H bridge, a current router, and a control circuit. The H bridge comprises a first switch and a second switch coupled to a first output node and a third switch and a fourth switch coupled to a second output node, wherein a load is coupled between the first output node and the second output node. The current router comprises a first shunt switch and a second shunt switch coupled between the first output node and the second output node. The control circuit generates a first control signal to control the first switch and the fourth switch, generates a second control signal to control the second switch and the third switch, generates a third control signal to control the first shunt switch, and generates a fourth control signal to control the second shunt switch.
Disclosed here is a semiconductor integrated circuit device configured to suppress a voltage drop over the route for transmitting voltages from a power cut-off switch to a power cut-off region without lowering the degree of freedom in routing signal wires in that region. The semiconductor integrated circuit device includes a semiconductor chip in which the power cut-off switch and power cut-off region are provided. A reduction in the number of wiring channels in the power-cut off region is avoided by locating the power cut-off switch outside the power cut-off region. Over the substrate, a substrate-side feed line is formed to transmit a power-supply voltage from the semiconductor chip to outside thereof via the power cut-off switch, before introducing the voltage again into the chip to feed the power cut-off region, thus suppressing the voltage drop between the power cut-off switch and the power cut-off region.
A second driver is provided in addition to a first driver outputting an output signal in accordance with a voltage of an input signal. When the output signal changes from a first voltage level to a second voltage level in accordance with a voltage change of the input signal, a control part controls the second driver to assist the signal change during a period from a change start time until the output signal exceeds a third voltage level. The control part controls the second driver to suppress the signal change during a period from the time when the output signal exceeds the third voltage level until it reaches the second voltage level.
A method of synchronizing clock signals may include generating a replicated delay associated with a delay of a clock signal path. The clock signal path may be associated with communication of a slave clock signal by a master block of a circuit to a slave block of the circuit. The method may further include selecting the slave clock signal from one of multiple clock signals based on the replicated delay. Each of the multiple clock signals may have a same frequency and a different phase.
Systems and methods for Phase-Locked Loop (PLL) based frequency synthesizer comprising a dynamic fraction divider in a feedback loop. The dynamic fraction divider employs a dynamic divide ratio that dynamically changes with the jitters and noise spurs contained in an input signal to the PLL, and generates a feedback signal used to adjust the PLL output frequency. The dynamic divide ratio may be determined by comparing the phases of the PLL output signal and the input signal.
An apparatus for measuring electrical parameters for an electrical system measures a first and second parameters of the electrical system between connections to the electrical system. A processor determines a third electrical parameter of the electrical system as a function of the first parameter and the second parameter.
A device and method for the contactless and therefore non-destructive measurement of a degree of dryness of a coat of paint applied to a substrate. The device comprises at least one transmitter for electromagnetic radiation, at least one receiver for determining the absorption of the electromagnetic radiation radiated into the coat of paint, and a measuring means. In the measuring means, the raw measured values measured by the receiver are processed and the degree of dryness, calculated therefrom, of the coat of paint is displayed. Either microwave radiation or infrared radiation in the near infrared range is used as measuring radiation, at least one time-dependent measurement of the absorption at a constant wavelength being made in both cases. In addition, the invention relates to a method for determining the degree of dryness of a coat of paint by means of the device.
A tow assembly for an airborne electromagnetic surveying system including a semi-rigid transmitter coil frame supporting a transmitter coil, the transmitter coil frame being formed from a plurality of serially connected frame sections forming a loop, the transmitter coil frame having articulating joints at a plurality of locations about a circumference thereof enabling the transmitter coil frame to at least partially bend at the articulating joints; and a suspension assembly for towing the transmitter coil frame behind an aircraft, the suspension assembly comprising a plurality of ropes and attached to the circumference of the transmitter coil frame at spaced apart locations.
An arrangement and an associated method are described in which a boring tool is moved through the ground within a given region along a path in which region a cable is buried. The boring tool and the cable transmit a boring tool locating signal and a cable locating signal, respectively. Intensities of the boring tool locating signal and the cable locating signal are measured along with a pitch orientation of the boring tool. Using the measured intensities and established pitch orientation, a positional relationship is determined to relative scale including at least the boring tool and the cable in the region. The positional relationship is displayed to scale in one view. The positional relationship may be determined and displayed including the forward locate point in scaled relation to the boring tool and the cable. Cable depth determination techniques are described including a two-point ground depth determination method.
The present embodiments relate to a local coil for a magnetic resonance tomography system. The local coil extends in a first direction and in a second direction orthogonal to the first direction. The local coil has a plurality of coil elements. At least some coil elements of the plurality overlap at least partly in a third direction running between the first direction and the second direction.
A single-pole, double-throw, transmit/receive switch for switching a NMR coil between a transmit mode and a receive mode comprises two diode bridge switches on opposites sides of a node the is common with the two diode bridges and the NMR coil. One of the two diode bridges is positioned between the coil and a preamplifier for signals received from the coil, and the other diode bridge is positioned between the coil and a RF signal transmitter for connecting and disconnecting transmitted signals to and from the coil. The NMR coil is connected to the switches through a resonant impedance matching network.
An apparatus and method for triaging patients according to radiation exposure operates by measuring electron paramagnetic resonance spectra of fingernails, toenails, and/or teeth. A coil structure allows in vivo measurement of tooth enamel or fingernail keratin with reduced coupling to underlying tissue.
An apparatus is provided for determining a target wavelength λ of a target photon beam. The apparatus includes a photon emitter, a pre-selection polarizer, a prism composed of a Faraday medium, a post-selection polarizer, a detector and an analyzer. The photon emitter projects a monochromatic light beam at the target wavelength λ substantially parallel to a magnetic field having strength B. The target wavelength is offset from established wavelength λ′ as λ=λ′+Δλ by wavelength difference of Δλ<<λ. The Faraday prism has Verdet value V. After passing through the pre-selection polarizer, the light beam passes through the prism and is incident to an interface surface at incidence angle θ0 to the normal of the surface and exits into a secondary medium as first and second circularly polarized light beams separated by target separation angle δ and having average refraction angle θ. The secondary medium has an index of refraction of n0. After passing the post-selection polarizer, the detector measures target pointer rotation angle Aw based on the target separation angle δ. The analyzer determines the target wavelength λ by calculating offset pointer rotation angle ΔAw=Aw−A′w from calibrated pointer rotation angle A′w based on established separation angle δ′ that corresponds to the established wavelength λ′, and by estimating the wavelength difference based on Δ λ ≈ - 2 ɛπ n 0 Δ A w cos θ ′ VB sin θ 0 , in which ε is an amplification factor. A method is provided incorporating operations described for the apparatus.
The angular position sensor is for assembly on a rotating shaft rotationally guided in a support structure, and includes an annular member having an inner surface socketed on the rotating shaft without relative rotation therebetween, and a housing in which a permanent magnet is inserted. A support is provided having a through hole through which the rotating shaft and the annular member extend, the through hole having an inner surface opposite and close to the annular member with a radial allowance, a cavity housing a sensor device capable of detecting variations in the magnetic field caused by the permanent magnet upon rotating with respect to the support together with the annular member, and an anchoring configuration by which the support is secured to a fixed structure.
The present invention concerns a scanner system for scanning the surface of an object, especially a vehicle wheel, the system comprises a mobile scanner including at least one sensor adapted to sense at least one position on the surface of the object and a reference system to which the sensor is sensitively adapted to provide at least one sensor signal corresponding the at least one sensed position on the surface with respect to the reference system, wherein the reference system is designed to provide a magnetic field having at least one orientation and the sensor is a magnetic sensor to be positioned within said magnetic field in proximity of or on the surface to be scanned.
A high frequency current transformer (HFCT) sensor for detecting partial discharges produced by a component is disclosed. The HFCT sensor includes at least one electrically conductive pattern formed on a substrate, where the substrate comprises multiple segmented regions connected by intermediate regions for folding along multiple fold lines between the segmented regions to form the HFCT sensor. A system for monitoring at least one component of an aircraft wiring system is also disclosed. The monitoring system includes at least one of the HFCT sensors for detecting partial discharges produced by the aircraft wiring system component. The monitoring system further includes a data acquisition system configured to monitoring signals from the HFCT sensor(s).
An electronic device for optimizing the output power of a solar cell, the electronic device having: a variable resistor coupled in series between the solar cell and a load, a control unit that is configured to control the variable resistor, a sensor for measuring an output voltage and a sensor for measuring the output current of the solar cell, wherein the control unit is configured to vary the resistance of the series resistor over time such that the first order derivative of the output voltage over time has a constant value, to monitor the second order derivative of the output current over time simultaneously, to detect whether the second order derivative of the output current over time exceeds a predetermined threshold value and to identify the corresponding values of the output voltage and current as a maximum power point (MPP) of the solar cell.
A system (1-2) for efficiently transferring harvested vibration energy to a battery (6) includes a piezo harvester (2) generating an AC output voltage (VP(t)) and current (IPZ(t)) and an active rectifier (3) to produce a harvested DC voltage (Vhrv) and current (Ihrv) which charge a capacitance (C0). An enable circuit (17) causes a DC-DC converter (4) to be enabled, thereby discharging the capacitance into the converter, when a comparator (A0,A1) of the rectifier which controls switches (S1-S4) thereof detects a direction reversal of the AC output current (IPZ(t)). Another comparator (13) causes the enable circuit (17) to disable the converter (4) when the DC voltage exceeds a threshold (VREF), thereby causing the capacitance be recharged.
The disclosure provides a method for charging a battery in an information handling system. The method includes prompting a user to select from a plurality of charging modes for the battery, wherein the charging modes comprise a first mode, a second mode, or a third mode. The method further includes charging the battery in the first mode when the first mode is selected, wherein a charge voltage and a charge current are constant In the first mode, and charging the battery dynamically when the second mode or the third mode is selected, wherein the charge current changes dynamically based on a battery temperature.
Plural batteries installed in an information handling system are simultaneously charged in a constant current mode to a predetermined charge and then in a constant voltage mode to a full charge to provide a reduced charge time and improved battery life. A current regulator integrated in a battery casing monitors current applied at the battery to maintain constant voltage charging. Voltage to ground of the other batteries is monitored to adjust current at those batteries where voltages in all of the battery cells are maintained substantially equal during charging.
A carrying case, which accommodates a pharmaceutical injection device for administering a pharmaceutical to a living body, comprises a case unit configured to accommodate the pharmaceutical injection device therein and a temperature regulation unit configured to regulate a temperature within the case unit. The temperature regulation unit includes: a cooling execution section configured to execute a cooling operation; a cooling fan configured to supply a cool air into the case unit; and a cooling control section configured to control the cooling execution section.
An apparatus and a method of monitoring a battery in an automotive vehicle are provided. An output is provided which can be a relative output as a function of minimum and maximum parameters of the battery.
A high acceleration rotary actuator motor assembly is provided comprising a plurality of phase motor elements provided in tandem on a shaft, each phase element including a rotor carrying magnets which alternate exposed poles, the rotor being connected to the shaft and surrounded by a stator formed of a plurality of interconnected segmented stator elements having a contiguous winding to form four magnetic poles, the stator being in electrical communication with a phase electric drive unit, wherein each of the poles exert a magnetic force upon the magnets carried by the rotor when the poles are electrically charged by the phase electric drive unit. The rotors and magnets of each phase motor element are offset about the shaft from one another. In addition, the phase motor elements are electrically isolated from one another.
Provided is a drive device for an alternating current motor which performs vector control on sensorless driving of the alternating current motor in an extremely low speed region without applying a harmonic voltage intentionally while maintaining an ideal PWM waveform. A current and a current change rate of the alternating current motor are detected, and a magnetic flux position inside of the alternating current motor is estimated and calculated in consideration of an output voltage of an inverter which causes this current change. The current change rate is generated on the basis of a pulse waveform of the inverter, and hence the magnetic flux position inside of the alternating current motor can be estimated and calculated without applying a harmonic wave intentionally.
A noise reduction device for a starter includes a positive electrode connected to a power supply line via a branch wire, a grounding electrode connected to ground via a motor body of a motor, two capacitors connected in parallel with each other between the positive electrode and the grounding electrode, and a resin package into which the positive electrode and the grounding electrode are inserted and fixed. The package holds the two capacitors. The two capacitors include a capacitor body and two lead terminals extracted from the capacitor body in the same direction with respect to the capacitor body. The two capacitors are arranged in such a direction that the lead terminals of one thereof face the lead terminals of the other thereof across the positive electrode and the grounding electrode. The two lead terminals are joined to the positive electrode and the grounding electrode by welding.
A method and device for controlling the starting time of a vehicle mounted thermal engine coupled mechanically to a polyphase rotary electrical machine with an inductor. The electrical machine includes phase windings and sensors for the position of a rotor, and is connected to an on-board electrical network. The method uses pre-fluxing by establishing an excitation current in the inductor for a predetermined pre-fluxing time, before establishment of phase currents. These phase currents are controlled by signals phase-shifted by an angle which varies according to a speed of rotation of the electrical machine, relative to synchronization signals produced by the sensors. During the starting time, the angle of phase-shifting is additionally dependent on a voltage of the on-board electrical network, in a range contained between a first and second voltages, with the second voltage being higher than the first. In the method, the starting time is independent from the voltage of the on-board electrical network.
A power conversion apparatus includes: a line breaker that is connected in series to a direct-current power supply; a first capacitor that is connected in parallel to the direct-current power supply through the line breaker; a discharge circuit that includes a resistor and a first switching circuit connected in series and is connected in parallel to the first capacitor; a power converter for driving a synchronous machine; a second capacitor that is connected in parallel to a direct-current side of the power converter; a second switching circuit that is connected in series between the first capacitor and the second capacitor; and a control circuit for controlling the discharge circuit. The control circuit controls the discharge circuit on the basis of the voltage of the first capacitor and the voltage of the second capacitor.
An isolated flyback converter for an LED driver includes a snubber circuit unit connected to the primary side of a transformer; and a snubber voltage detection unit which detects a snubber voltage of the snubber circuit unit and generates a reference voltage proportional to the detected snubber voltage. Further, the isolated flyback converter includes a switching unit with a source terminal and a drain terminal, and may be turned on or off in response to an arbitrary logic signal. Furthermore, the isolated flyback converter includes a control unit which compares a voltage supplied through the switching current sensing resistor with the reference voltage, and supplies a logic signal at relatively high level or relatively low level to the switching unit to control the switching unit such that a secondary-side current of the transformer is maintained relatively constant.
The present invention introduces a new class of lightweight tile-based illumination systems for uses wherein thin directionally-illuminating light distributing engines are embedded into the body of otherwise standard building materials like conventional ceiling tiles along with associated means of electrical control and electrical power interconnection. As a new class of composite light emitting ceiling materials, the present invention enables a lighter weight more flexibly distributed overhead lighting system alternatives for commercial office buildings and residential housing without changing the existing materials. One or more spot lighting, task lighting, flood lighting and wall washing elements having cross-sectional thickness matched to that of the building material or tile into which they are embedded, are contained and interconnected within the material body's cross-section. Embedded power control devices interconnected to each lighting element in the distributed system communicate with a central switching center that thereby controls each light-emitting element in the system.
A control apparatus for LED diodes includes a dimmer TRIAC electrically connected in series between a power supply and a LED lighting converter. The converter comprises a transformer, with a primary winding coupled with an input terminal and a secondary winding coupled with an output terminal, and a switch coupled to the primary winding to regulate the current through the primary winding and regulate the output voltage. The apparatus comprises a control device adapted to control said switch determining the on period and the off period of the switch to maintain constant the output current to supply said LED diodes. The apparatus comprises a detector connected to the secondary winding of the transformer and adapted to detect the conduction angle of the TRIAC; the control device is adapted to regulate the output current to supply said LED diodes in response to the TRIAC conduction angle detected by the detector.
The present invention relates to power reforming methods and associated multiphase lights, especially to power reforming methods and associated multiple lights that selectively turn ON and OFF to reform current to follow voltage appropriately, which provides better heat dissipation, improving power factor and color mixing capability. The method comprises acts of rectifying an AC voltage to a pulsating DC voltage, synchronizing an internal time base signal to the pulsating DC voltage, setting pulse duration in a pulse period and turning ON and OFF of an electronic device. The device comprises at least two loads, a rectifier, at least two drivers and a controller.
A driving module for a gas discharge lamp, in particular for headlights in vehicles, comprises a suitable lamp socket, a carrier for electrical components, and an ignition transformer, wherein the component part carrier is populated at least with electrical components of an ignition unit and moreover is designed for accommodating further electrical components that are required for a self-sustaining operation of the driving module. In addition, the lamp socket is made of a high temperature resistant plastic material and has an integrated high-voltage conducting track.
An organic light emitting display device includes a substrate having a pixel region in which at least one organic light emitting diode is formed and a non-pixel region other than the pixel region; and an encapsulation film for encapsulating the substrate. Here, the encapsulation film is made of by laminating at least one organic film and at least inorganic film and a desiccant formed in at least one of the organic film and the inorganic film corresponding to the non-pixel region of the substrate.
A gas-discharge lamp (1) is described having two electrodes (4, 5) that project into the discharge vessel (3) of the lamp. The lamp further comprises an outer envelope (18) that surrounds the discharge vessel (3), with an airtight seal, while leaving an outer cavity (20) between itself and the discharge vessel (3) and that is filled with a gas at a pressure of not more than 1,000 mbar. In the outer cavity (20), there is a single conductor, electrically connected to one of the electrodes, that is in direct contact with the gas filling in the cavity (20) to allow a high-voltage pulse to be applied for igniting a discharge between the conductor and its surroundings. Also described are a method of operating a gas-discharge lamp of this kind and various methods of producing gas-discharge lamps of this kind.
An air-cooled electric machine, such as an alternating current motor, having a housing containing a rotating shaft and a housing airflow cooling path has cooling vents on the housing periphery. An external cooling system having a duct enclosure is coupled to the housing exterior, and defines a duct airflow cooling path that is in communication with the housing airflow cooling vent and housing airflow cooling path. A duct fan within the duct enclosure external the housing is coupled to and driven by the shaft. The duct fan circulates air at above ambient pressure into the housing airflow cooling path.
A power adapter for a peripheral device such as portable electronics device is disclosed. The power adapter includes a housing that contains electrical components associated with the power adapter. The power adapter also includes a data port provided at a surface of the housing. The data port is configured to provide external power to the peripheral device.
A hybrid neutral transfer switch in an electrical system to transfer a load between multiple AC power sources is provided. The hybrid neutral transfer switch includes a neutral gate controlled device connected to a neutral input of each of the multiple power sources and a mechanical transfer switch that switches between the neutral input of each of the power sources. During the transfer of power from one power source to another power source, the neutral gate controlled devices are activated and/or deactivated in conjunction with the switching of the mechanical transfer switch from one neutral input to another neutral input.
An electromagnetic transmission apparatus comprises a plurality of electromagnetic coupling elements, wherein each electromagnetic coupling element has at least one resonant structure. The plurality of electromagnetic coupling elements are arranged that when the electromagnetic transmission apparatus is operated within a specific frequency band, an electromagnetic coupling device near the electromagnetic transmission apparatus within an electromagnetic distance can electromagnetically couple with the electromagnetic transmission apparatus by near-field coupling, and the electromagnetic wave of the electromagnetically coupling propagates along with the arrangement direction of the plurality of electromagnetic coupling elements.
A MOSFET implemented self-powered current by-pass or circuit breaker device is based on the use of a high multiplication factor (HMF) inductive voltage booster, adapted to boost a voltage as low as few tens of mV up to several Volts, assisted by a start-up low multiplication factor (LMF) charge pump made with low threshold transistors for providing a supply voltage to a polarity inversion detecting comparator of the drain-to-source voltage difference of a power MOSFET connected in parallel to a DC source or string of series connected DC sources or battery, in series to other DC sources during normal operation of the parallel connected DC source or string of series connected DC sources or battery. The inductance for the high multiplication factor, inductive voltage booster for most of the considered power applications is on the order of a few pH and such a relatively send inductor may be included as a discrete component in a compact package or “system-in-package” of monolithically integrated circuits.
A wind power generation system 10 of an embodiment includes a rotor 40 having blades 42, an airflow generation device 60 provided in a leading edge of each of the blades 42 and having a first electrode 61 and a second electrode 62 which are separated via a dielectric, a discharge power supply 65 applying a voltage between the electrodes of the airflow generation device 60, and a control unit 110 controlling the discharge power supply 65. The control unit 110 controls the voltage to perform pulse modulation so that the value of a relational expression fC/U is 0.1 or larger and 9 or smaller where f is a pulse modulation frequency of the voltage, C is a chord length of the blades 42, and U is a relative velocity combining a peripheral velocity of the blades 42 and a wind velocity, so as to generate plasma induced flow.
An assembly for retrofitting fixed speed, doubly fed and fully converted wind turbines. A differential having an output shaft coupled to the main generator and a control shaft to change a ratio between differential input and output and coupled to the auxiliary generator. The main generator operates at constant frequency and is coupled to an electric power grid without a power converter. A variable speed auxiliary generator may be coupled to the electric grid through auxiliary power electronics. A controller may during low loads assign a full load to the auxiliary generator, during typical loads assign a variable shared load between the auxiliary and main generators based on an optimization algorithm and during high loads assign a fixed shared load between the auxiliary and main generators based on the internal gear ratio of the differential. For step-down differentials, at high loads the full load may go to the main generator.
The invention concerns a method for the operation of an underwater power plant with a water turbine to take up kinetic energy from a surrounding flow; and an electrical generator coupled directly to the water turbine; characterized in that the power regulation in the generator mode is done by a control or regulation of the load moment produced by the electrical generator for a freely adjusting rpm speed of the water turbine, wherein the setpoint value of the load moment in a first, power-optimized operating range is established by a state controller and/or a search mechanism for the power maximum; and in a second, power-limited operating range the assigned load moment is chosen so that an operating point distant from the power optimum results for the water turbine.
An electrical generator is provided that generates electricity when bending of conductor layers and a magnetic field layer causes movement of the conductors relative to a magnetic field provided by the magnetic field layer.
An intra-tire power generating apparatus capable of producing high power is provided. The apparatus includes rotary magnets and rotary weights, which rotate in response to variations in centrifugal force and circumferential acceleration working on the tire of a running vehicle, and a coil unit, which is located between two rotary magnets facing each other and generates voltages through electromagnetic induction from the rotary magnets. In the apparatus, the rotary magnets and the rotary weights have an identical center line of rotation. The rotary weights are so formed as to have their center of gravity dislocated from the center line of rotation. The rotary magnets are each provided, in the plane orthogonal to the center line of rotation, with an even number of regions adjoining in the circumferential direction around the center line of rotation, the adjoining regions having different magnetic poles from each other. The two rotary magnets facing each other are so configured as to rotate while maintaining the opposition of their respective regions having mutually opposite magnetic poles. And the coil unit has coil windings, each of which is of a tubular shape surrounding a space through which the magnetic flux generated between the mutually opposite magnetic poles of the two rotating rotary magnets passes.
A packaged semiconductor device (100) comprising a semiconductor chip (101) of an area having a first surface (101a) including a plurality of bond pads (102) linearly arrayed, adjacent pads having a first pitch (103) center-to-center; an insulating layer (110) on the first chip surface covering the chip area, the layer having a height (116) and a second surface (110a) parallel to the first surface; the second surface including contact nodes (120) in staggered array, the nodes having the same plurality as the pads, adjacent nodes having a second pitch (121) center-to-center greater than the first pitch; and metal wires through the layer height connecting the pads to respective nodes.
A semiconductor package may include a packaging substrate, a first semiconductor chip on the packaging substrate, and a support plate on the packaging substrate. The support plate may be spaced apart from the first semiconductor chip in a direction parallel with respect to a surface of the packaging substrate. A second semiconductor chip may be provided on the first semiconductor chip and on the support plate so that the first semiconductor chip is between the second semiconductor chip and the packaging substrate and so that the support plate is between the second semiconductor chip and the packaging substrate. An adhesion layer may bond the second semiconductor chip to the first semiconductor chip and may bond the second semiconductor chip to the support plate. In addition, an electrical coupling may be provided between the first semiconductor chip and the packaging substrate.
A low harmonic radio-frequency (RF) switch in a silicon-on-insulator (SOI) substrate and methods of manufacture. A method includes forming at least one trench through an insulator layer. The at least one trench is adjacent a device formed in an active region on the insulator layer. The method also includes forming at least one cavity in a substrate under the insulator layer and extending laterally from the at least one trench to underneath the device.
A semiconductor device supplying a charging current to a charging-target element includes: a semiconductor layer of a first conductivity type; a first semiconductor region of a second conductivity type formed on a main surface of the semiconductor layer and having a first node coupled to a first electrode of the charging-target element and a second node coupled to a power supply potential node supplied with a power supply voltage; a second semiconductor region of the first conductivity type formed in a surface of the first semiconductor region at a distance from the semiconductor layer and having a third node coupled to the power supply potential node; and a charge carrier drift restriction portion restricting drift of charge carrier from the third node to the semiconductor layer.
A sensor package is disclosed. One embodiment provides a sensor device having a carrier, a semiconductor sensor mounted on the carrier and an active surface. Contact elements are electrically connecting the carrier with the semiconductor sensor. A protective layer made of an inorganic material covers at least the active surface and the contact elements.
The invention describes a semiconductor cell including a gate, a dielectric layer, a channel layer, a source region, a drain region and an oxide region. The dielectric layer is adjacent to the gate. The channel layer is adjacent to the dielectric layer and is formed above a source region, a drain region, and an oxide region.
The present disclosure provides an integrated circuit. The integrated circuit includes a semiconductor substrate having a first region and a second region; a first gate stack of an n-type field-effect transistor (FET) in the first region; and a second gate stack of a p-type FET in the second region. The first gate stack includes a high k dielectric layer on the semiconductor substrate, a first crystalline metal layer in a first orientation on the high k dielectric layer, and a conductive material layer on the first crystalline metal layer. The second gate stack includes the high k dielectric layer on the semiconductor substrate, a second crystalline metal layer in a second orientation on the high k dielectric layer, and the conductive material layer on the second crystalline metal layer.
A method is provided for fabricating a semiconductor structure. The method includes providing a semiconductor substrate, and forming a shallow trench isolation structure in the semiconductor substrate. The method also includes forming a plurality of parallel gate structures on the semiconductor substrate surrounded by the shallow trench isolation structure. Further, the method includes forming a plurality of first trenches in the semiconductor substrate at least one side of the gate structures proximity to the shallow trench isolation structure, and forming a first silicon germanium layer with a first germanium concentration in each of the first trenches. Further the method also includes forming a plurality second trenches in semiconductor substrate at least one side of the gate structures farther from the shallow trench isolation structure, and forming a second silicon germanium layer with a second germanium concentration greater than the first germanium concentration in each of the second trenches.
A semiconductor device and a method for manufacturing the same are disclosed. In one embodiment, the semiconductor device may comprise a semiconductor layer, a fin formed by patterning the semiconductor layer, and a gate stack crossing over the fin. The fin may comprise a doped block region at the bottom portion thereof. According to the embodiment, it is possible to effectively suppress current leakage at the bottom portion of the fin by the block region.
Disclosed is an LDMOS device, which is configured to reduce an electric field concentrated to a gate oxide film and lower an ON-resistance produced when the device conducts a forward action, and a method for manufacturing the same. More specifically, when an n-drift region is formed on a P-type substrate, a p-body is formed on the n-drift region through an epitaxial process, and then the p-body region is partially etched to form a plurality of p-epitaxial layers, so that when the device executes an action for blocking a reverse voltage, depletion layers are formed between the junction surfaces of the p-epitaxial layers and the n-drift region including the junction surfaces between the n-drift region and the p-body.
A semiconductor integrated circuit device includes a first dopant region in a semiconductor substrate, an isolation region on the semiconductor substrate, the isolation region surrounding the first dopant region, a gate wire surrounding at least a portion of the isolation region, and a plurality of second dopant regions arranged along at least a portion of the gate wire, the plurality of second dopant regions being spaced apart from each other, and the portion of the gate wire being between the first dopant region and a respective second dopant region.
Semiconductor device including a memory cell featuring a first gate insulating film over a semiconductor substrate, a control gate electrode over the first gate insulating film, a second gate insulating film over the substrate and a side wall of the control gate electrode, a memory gate electrode over the second gate insulating film arranged adjacent with the control gate electrode through the second gate insulating film, first and second semiconductor regions in the substrate positioned on a control gate electrode side and a memory gate side, respectively, the second gate insulating film featuring a first film over the substrate, a charge storage film over the first film and a third film over the second film, the first film having a first portion between the substrate and memory gate electrode and a thickness greater than that of a second portion between the control gate electrode and the memory gate electrode.
According to one embodiment, a control gate is formed on the semiconductor substrate and includes a cylindrical through hole. A block insulating film, a charge storage film, a tunnel insulating film, and a semiconductor layer are formed on a side surface of the control gate inside the through hole. The tunnel insulating film comprises a first insulating film having SiO2 as a base material and containing an element that lowers a band gap of the base material by being added. A density and a density gradient of the element monotonously increase from the semiconductor layer toward the charge storage film.
A gate structure of a non-volatile memory device and a method of forming the same including a tunnel oxide layer pattern, a charge trap layer pattern, a blocking dielectric layer pattern having the uppermost layer including a material having a first dielectric constant greater than that of a material included in the tunnel oxide layer pattern, and first and second conductive layer patterns. The gate structure includes a first spacer to cover at least the sidewall of the second conductive layer pattern. The gate structure includes a second spacer covering the sidewall of the first spacer and the sidewall of the first conductive layer pattern and including a material having a second dielectric constant equal to or greater than the first dielectric constant. In the non-volatile memory device including the gate structure, erase saturation caused by back tunneling is reduced.
A semiconductor memory device includes a semiconductor substrate defining active regions partitioned by an isolation region, conductive lines spaced apart from each other and crossing the active regions over the semiconductor substrate, a thin film pattern formed on a top portion of the conductive lines having opening portions exposing part of the conductive lines in a width wider than a width of the conductive lines, an insulating layer filling the opening portions and formed over the thin film pattern, and an air gap formed between the conductive lines below the insulating layer and the thin film pattern.
Generally, the subject matter disclosed herein is directed to semiconductor devices with reduced threshold variability having a threshold adjusting semiconductor material in the device active region. One illustrative semiconductor device disclosed herein includes an active region in a semiconductor layer of a semiconductor device substrate, the active region having a region length and a region width that are laterally delineated by an isolation structure. The semiconductor device further includes a threshold adjusting semiconductor alloy material layer that is positioned on the active region substantially without overlapping the isolation structure, the threshold adjusting semiconductor alloy material layer having a layer length that is less than the region length. Additionally, the disclosed semiconductor device includes a gate electrode structure that is positioned above the threshold adjusting semiconductor alloy material layer, the gate electrode structure including a high-k dielectric material and a metal-containing electrode material formed above the high-k dielectric material.
A strain-balanced photodetector is provided for detecting infrared light at an extended cutoff wavelength in the range of 4.5 μm or more. An InAsSb absorber layer has an Sb content is grown in a lattice-mismatched condition to a GaSb substrate, and a plurality of GaAs strain-compensating layers are interspersed within the absorber layer to balance the strain of the absorber layer due to the lattice mismatch. The strain-compensation layers allow the absorber to achieve a thickness exhibiting sufficient absorption efficiency while extending the cutoff wavelength beyond that possible in a lattice-matched state. Additionally, the strain-compensation layers are sufficiently thin to be substantially quantum-mechanically transparent such that they do not substantially affect the transmission efficiency of the absorber. The photodetector is preferably formed as a majority carrier filter photodetector exhibiting minimal dark current, and may be provided individually or in a focal plane array.
The present invention is a phosphor expressed by the general formula (A1−xRxM2X)m(M2X4)n (wherein the element A is one or more types of element selected from Li, Na, Be, Mg, Ca, Sr, Ba, Sc, Y, La, Gd, and Lu, the element R is one or more types of activating agent selected from Mn, Ce, Pr, Nd, Sm, Eu, Tb, Dy, Ho, Er, Tm, and Yb, the element M is one or more types of element selected from Si, Ge, Sn, Ti, Hf, Zr, Be, B, Al, Ga, In, Tl, and Zn, the element X is one or more types of element selected from oxygen and nitrogen, n and m are integers of 1 or more, and x is a real number defined by 0
According to one embodiment, a light emitting element includes a light emitting layer, a cladding layer, a current spreading layer, a second layer, and an electrode. The light emitting layer is capable of emitting emission light. The current spreading layer includes a surface processed layer and a first layer. The surface processed layer has a surface including convex portions and bottom portions provided adjacent to the convex portions. The first layer is provided between the surface processed layer and the cladding layer. The second layer is provided between the surface processed layer and the cladding layer and includes a region having an impurity concentration higher than an impurity concentration of the current spreading layer. The electrode is provided in a region of the surface of the surface processed layer where the convex portions and the bottom portions are not provided.
A light emitting device includes a conductive substrate having a first substrate surface and comprising a conductive material, a protrusion formed on the conductive substrate, wherein the protrusion is defined in part by a first protrusion surface that is not parallel to the first substrate surface, and light emission layers disposed over the first protrusion surface. The light emission layers can emit light when an electric field is applied across the light emission layers.
An LED package structure with standby bonding pads for increasing wire-bonding yield includes a substrate unit, a light-emitting unit, a conductive wire unit and a package unit. The substrate unit has a substrate body and a plurality of positive pads and negative pads. The light-emitting unit has a plurality of LED bare chips. The positive electrode of each LED bare chip corresponds to at least two of the positive pads, and the negative electrode of each LED bare chip corresponds to at least two of the negative pads. Each wire is electrically connected between the positive electrode of the LED bare chip and one of the at least two positive pads or between the negative electrode of the LED bare chip and one of the at least two negative pads. The package unit has a light-permitting package resin body on the substrate body to cover the LED bare chips.
A light emitting diode (LED) includes a p-type layer of material, an n-type layer of material and an active layer between the p-type layer and the n-type layer. A roughened layer of transparent material is adjacent one of the p-type layer of material and the n-type layer of material. The roughened layer of transparent material has a refractive index close to or substantially the same as the refractive index of the material adjacent the layer of transparent material, and may be a transparent oxide material or a transparent conducting material. An additional layer of conductive material may be between the roughened layer and the n-type or p-type layer.
The present invention provides a silicon carbide semiconductor device having an ohmic electrode improved in adhesion of a wire thereto by preventing deposition of carbon so as not to form a Schottky contact, as well as a method for manufacturing such a silicon carbide semiconductor device. In the SiC semiconductor device, upon forming the ohmic electrode, a first metal layer made of one first metallic element is formed on one main surface of a SiC layer. Further, a Si layer made of Si is formed on an opposite surface of the first metal layer to its surface facing the SiC layer. The stacked structure thus formed is subjected to thermal treatment. In this way, there can be obtained a silicon carbide semiconductor device having an ohmic electrode adhered well to a wire by preventing deposition of carbon atoms on the surface layer of the electrode and formation of a Schottky contact resulting from Si and SiC.
An object is to provide a system-on-panel display device including a display portion and a peripheral circuit for controlling display on the display portion over one substrate, which can operate more accurately. The display device has a display portion provided with a pixel portion including a plurality of pixels and a peripheral circuit portion for controlling display on the display portion, which are provided over a substrate. Each of the display portion and the peripheral circuit portion includes a plurality of transistors. For semiconductor layers of the transistors, single crystal semiconductor materials are used.
An exemplary embodiment may include a substrate, an insulating layer on the substrate, and a pixel electrode including a transparent conductive layer on the insulating layer. A portion of a surface of the insulating layer contacting the transparent conductive layer has a plurality of recessed holes formed by etching with an etchant into an interface between the transparent conductive layer of the pixel electrode and the insulating layer.
A data retention period of a memory circuit is lengthened, power consumption is reduced, and a circuit area is reduced. Further, the number of times written data can be read to one data writing operation is increased. A memory circuit has a first field-effect transistor, a second field-effect transistor, and a third field-effect transistor. A data signal is input to one of a source and a drain of the first field-effect transistor. A gate of the second field-effect transistor is electrically connected to the other of the source and the drain of the first field-effect transistor. One of a source and a drain of the third field-effect transistor is electrically connected to a source or a drain of the second field-effect transistor.
A thin film transistor (TFT) includes a gate electrode, a gate insulating layer, a first protective pattern, a second protective pattern, a source electrode, a drain electrode, a semiconductor channel layer, and a passivation layer. The first protective pattern and the second protective pattern are disposed on the gate insulating layer above the gate electrode. The source electrode is disposed on the gate insulating layer and the first protective pattern. The drain electrode is disposed on the gate insulating layer and the second protective pattern. The semiconductor channel layer is disposed on the gate insulating layer, the source electrode, and the drain electrode. In an extending direction from the source electrode to the drain electrode, a length of the first protective pattern is shorter than that of the source electrode, and a length of the second protective pattern is shorter than that of the drain electrode.
A sheet for forming a resin film for a chip, with which a semiconductor device is provided with a gettering function, is obtained without performing special treatment to a semiconductor wafer and the chip. The sheet has a release sheet, and a resin film-forming layer, which is formed on the releasing face of the release sheet, and the resin film-forming layer contains a binder polymer component, a curing component, and a gettering agent.
A design for an organic light-emitting display device that increases capacitor capacity and increases aperture ratio by forming an initializing voltage electrode on a different layer than an electrode of the capacitor and forming only one via hole for an entire set of three sub-pixels. One of the source electrodes and the drain electrodes of switching transistors for the three sub-pixels are formed in common, along with the gate electrodes of the switching transistors.
A display device includes: a display substrate; a display formed on the display substrate; an encapsulation substrate affixed to the display substrate by an adhering layer surrounding the display, the display substrate including a composite member including a resin matrix and a plurality of carbon fibers and an insulation member attached to an edge of the composite member and forming a through hole; a metal layer positioned on a side of the encapsulation substrate facing the substrate; and a conductive connector filling the through hole and contacting the metal layer. The composite member is stacked with at least two layers with different sizes, and the insulation member contacts sides of the at least two layers and has the same thickness as the composite member.
There is provided an organic light-emitting diode luminaire. The luminaire includes a first electrode, a second electrode, and an electroluminescent layer therebetween. The electroluminescent layer includes: a first electroluminescent material having an emission color that is blue-green; and a second electroluminescent material having an emission color that is red/red-orange. The additive mixing of the emitted colors results in an overall emission of white light.
A method for forming a nanowire field effect transistor (FET) device, the method includes forming a suspended nanowire over a semiconductor substrate, forming a gate structure around a portion of the nanowire, forming a protective spacer adjacent to sidewalls of the gate and around portions of nanowire extending from the gate, removing exposed portions of the nanowire left unprotected by the spacer structure, and epitaxially growing a doped semiconductor material on exposed cross sections of the nanowire to form a source region and a drain region.
Provided is a nitride semiconductor light emitting device including: a first nitride semiconductor layer; an active layer formed above the first nitride semiconductor layer; and a delta doped second nitride semiconductor layer formed above the active layer. According to the present invention, the optical power of the nitride semiconductor light emitting device is enhanced, optical power down phenomenon is improved and reliability against ESD (electro static discharge) is enhanced.
Light-emitting devices (LED) and methods of manufacturing the same. A LED includes a first type semiconductor layer, a nano array layer that includes a plurality of nano structures each including a first type semiconductor nano core selectively grown from the first type semiconductor layer, and an active layer and a second type semiconductor layer sequentially grown from a side surface of the first type semiconductor nano core, and that is formed in a selective growth region formed in a surface of the first type semiconductor layer, a first electrode layer that is formed to be used when a voltage is applied to the first type semiconductor layer and formed in a predetermined pattern connecting regions that do not correspond to the selective growth region in the first type semiconductor layer, a second electrode layer formed to be used when a voltage is applied to the second type semiconductor layer on the plurality of nano structures, and an insulating layer formed between the first electrode layer and the second electrode layer so that the first electrode layer is insulated from the second electrode layer.
According to one embodiment, an electronic apparatus includes a proximity sensor, a control module and an adjustment module. The proximity sensor is configured to emit light and to detect reflection of the emitted light. The control module is configured to control an operation of the electronic apparatus, based on an output signal of the proximity sensor. The adjustment module is configured to adjust an intensity of the emitted light by monitoring the output signal of the proximity sensor while varying the intensity of the emitted light, when an event indicating that a detection distance of the proximity sensor is to be adjusted has occurred.
The invention relates to a method for analyzing a defect of a photolithographic mask for an extreme ultraviolet (EUV) wavelength range (EUV mask) comprising the steps of: (a) generating at least one focus stack relating to the defect using an EUV mask inspection tool, (b) determining a surface configuration of the EUV mask at a position of the defect, (c) providing model structures having the determined surface configuration which have different phase errors and generating the respective focus stacks, and (d) determining a three dimensional error structure of the EUV mask defect by comparing the at least one generated focus stack of the defect and the generated focus stacks of the model structures.
A method for generating a cathodoluminescence map comprising the steps of: generating an intensity modulated charged particle beam; focusing said charged particle beam on a specimen; gating temporally the cathodoluminescence emitted by said specimen to provide time-gated cathodoluminescence; measuring the time-gated cathodoluminescence for different charged particle beam positions on the specimen to generate a cathodoluminescence map; deconvoluting the cathodoluminescence map to improve the resolution of said cathodoluminescence map. The invention further provides devices for carrying out such methods.
A dewar assembly is presented for use in an optical IR detection system defining a light collecting region. The dewar assembly comprises a warm shield unit configured as an enclosure for optically enclosing the light collection region and having an optical window through which incident light enters the dewar. The warm shield defines a reflective inner surface configured such that light portions of the incident light propagating through said optical window onto said inner surface are reflected by the inner surface towards regions outside said light collecting region.
Methods and systems for characterizing a plasma with radiation, particularly, terahertz (THz) radiation, are disclosed. The disclosed method of characterizing a plasma includes directing THz radiation into the plasma; and detecting an emission due to interaction of the THz radiation with the plasma to characterize the plasma. A disclosed plasma characterizing device includes a means for directing THz radiation into a plasma; and a detector adapted to detect an emission emitted by the plasma due to interaction of the THz radiation with the plasma to characterize the plasma. A plasma characterizing system is also disclosed. The emission detected may be a fluorescence, a variation in fluorescence and/or an acoustic emission.
A mass spectrometric device of the present invention includes a quadrupole filter (12) located upstream of a quadrupole ion trap (13) and configured to transmit ions in a predetermined filter range, and determines the filter range of the quadrupole filter (12) such that accumulation time for the ions in the quadrupole ion trap (13) is maximized. The accumulation time for the ions is determined based on mass spectrometry data information. With this configuration, the present invention produces advantageous effects of improving analysis throughput and an S/N ratio in an analysis of a minor sample component mixed in various accompanying components by using the mass spectrometric device using the quadrupole ion trap.
A time-of-flight mass spectrometer includes an ion source that generates ions. A two-field ion accelerator accelerates the ions through an ion flight path. A pulsed ion accelerator focuses the ions to a first focal plane where the ion flight time is substantially independent to first order of an initial velocity of the ions prior to acceleration. An ion reflector focuses ions to a second focal plane where the ion flight time is substantially independent to first order of an initial velocity of the ions prior to acceleration. An ion detector positioned at the second focal plane detects the ions. The two-field ion accelerator and the ion reflector cause the ion flight time to the ion detector for the ion of predetermined mass-to-charge ratio to be substantially independent to first order of both the initial position and the initial velocity of the ions prior to acceleration.
The present invention relates to novel methods for monitoring or tracing a job operation performed in a borehole, such as well boreholes traversing a geological formation. In one embodiment, the novel methods of the invention comprise the steps of: (a) disposing into the borehole a neutron absorber during the performance of the job operation; (b) logging the borehole with an instrument capable of measuring a neutron capture in and around the borehole after performance of the job operation; and (c) monitoring or tracing the job operation performed in the borehole by comparing the measured neutron capture with a baseline neutron capture in and around the borehole. The methods of the present invention pose small or no risk from a health safety and environment perspective and are useful for monitoring or tracing hydraulic fracturing, cementing operation in well boreholes, production logging or subsurface location of downhole collars, float shoes and other jewellry.
An encoder includes a slit array along a first measurement axis, and an optical module capable of relatively moving with respect to the slit array. The optical module comprises a point light source that irradiates the part of the slit array, and a light receiving array comprising a plurality of light receiving elements along a second measurement axis and arranged in positions offset with respect to the point light source. The light receiving elements is receiving light irradiated from the point light source and reflected from the reflection slit. The plurality of light receiving elements comprises respective shapes such that the light receiving element nearer to the point light source comprises a shorter length in a width direction and end parts on an opposite side of the light receiving element with respect to the point light source are arranged side by side in positions along the second measurement axis.
An optical position detection device that detects a position of a target object, includes plural detection light sources that output detection light, a light source drive unit that drives the plural detection light sources, a first light receiving unit that receives the detection light reflected by the target object located in an output space of the detection light, a compensation light source unit that outputs compensation light that enters outside the output space, a second light receiving unit that receives the compensation light, and a position detection unit that detects the position of the target object based on a difference between first received light intensity in the first light receiving unit and second received light intensity in the second light receiving unit.
A dual axis motorized solar tracking device that can be rotated over 360° and wherein the solar array panel thereof can be tilted from 90° to 10° and wherein the motorized portions of said device is controlled by an internally contained computerized controlling system that is programmed to follow the path of the sun at the installed location thereof and also to adjust the system to allow for any problems in weather. The internally contained computerized controlling device is electrically actuated from a plethora of sources including a separate panel on the solar array dedicated to recharging an energy storage cell system that will power up the internally contained and computerized controlling system. Alternatively, other power sources external to the device may also be employed giving this system a unique ability to keep on running while charging the energy storage cell system under any circumstances. A lithium-ion battery can be used as the rechargeable battery system.
Heater covers and methods of using the same are disclosed. The covers can be used on stand-type movable or fixed patio heaters or table top heaters. The covers can be removably attached to the heaters. The covers can have body covers separate or attached to head covers. The covers can be resilient or rigid. The rigid covers can have hinges and can clamshell or telescope around the heaters.
The present invention relates to a method and apparatus for manufacturing a solar cell module using a laser. In the present invention, a tabbing process for bonding a solar cell and metal electrodes is performed by a local irradiation with a laser, so that the heating area can be localized only to a required zone (bonding area) for the tabbing process, thereby minimizing a direct heating zone which occurs in the process. Therefore, it is possible to reduce the damage such as cracks and breakage due to thermal expansion/contraction of a solar cell which is conventionally configured to have a multi-layered structure made of different materials, to improve the bonding strength and the bonding uniformity, and to reduce the processing time, thereby improving the production efficiency.
A switch panel with an indicator is disclosed. The switch panel has a transparent region. There is a light source disposed in the switch panel for emitting light when turning off a switch body. A shape of the transparent region is projected onto the wall for forming a large area of indicating pattern, and this can replace a night light. The drawback of a luminous region in prior art which is limited to be on the switch body or on the switch panel is solved.
A control switch for a cooking range includes a mounting plate configured to be mounted in a control panel of the cooking range and a snap lock defined in the mounting plate. The snap lock includes a catch that orients the control switch in the control panel. The mounting plate also includes a keyed tab shaped to match the profile of the catch of the snap lock.
The disclosure describes a novel approach of utilizing a collection bin for a side loading waste collection vehicle. The collection bin includes a weighing system with a processor for measuring the weight of material collected from each waste container and associating this weight with appropriate data, such as the owner of the waste container.
The present disclosure relates to feedthrough contacts for electronic components of the type used in implantable stimulators such as, for example, cardiac pacemakers, ICDs, CRT-Ds, and/or neurostimulators. A feedthrough conductor includes a metallic electrode, wherein a part of the metallic electrode (2) has a locally enlarged diameter in the region of the passage through an opening (3) in the component housing (4). The ridge (5) formed as a result exerts pressure onto the elastic sealing material (6) disposed around the electrode (2) in a tubular shape, thereby producing a hermetic seal between the electrode surface and the sealing material (6), and between the sealing material (6) and the wall (4) of the housing opening (3). The feedthrough conductor is sealed using an adhesive material (7) on the outer side of the electronic component.
A wiring substrate is configured such that each of laminate portions provided above and below a substrate core includes insulating layers and conductor layers stacked alternately. Of the conductor layers of the laminate portions, signal line layers are treated with a silane coupling treatment, which is a surface modification treatment, so that each signal line comprises a flat surface. A roughening treatment is performed on the remaining conductor layers of the laminate portions such that the surfaces of these layers are roughened. This structure provides an advantage when high-frequency signals are transmitted through the signal line layers. That is, when each signal line comprises a flat surface, an increase in conductor loss due to the skin effect can be prevented. In addition, by means of chemical bonding attained through the silane coupling treatment, the reliability of adhesion between the signal line layers and the insulating layer is sufficiently attained.
A high speed video cable carries signals according to the High-Definition Multimedia Interface (HDMI) or DisplayPort standards, and includes a raw cable. The raw cable is constructed with either Shielded Twisted Pairs (STP) or coaxial lines which carry all signals on either shielded conductors or their shields. Some auxiliary signals including power are carried on ungrounded shields.
A housing for an electronic control device includes at least two housing parts, at least one housing base, a housing lid and an electronic connection between components disposed inside the housing and components disposed outside the housing. The connection is fixed to the base of the housing. The electronic connection is either constructed as a single-component flexible printed circuit board or as at least one partial flexible printed circuit board including at least one uniform open area of a copper conductor track outside an area covered by the housing lid. The width of the uniform region is oriented to a predefined contacting type of peripheral components and is longer than necessary for the contacting type. The invention therefore provides for a variable adaptation of generic electronics housings, thereby not necessarily requiring a novel structure of the housing with corresponding expensive individual packaging.
A system is employed to mount an electronic component on a shelf. A first restraining device is associated with a support structure in a first location. The first restraining device is configured to operably engage a mating piece associated with the electronic component. The support structure is configured to guide an electronic component along an axis of insertion when introduced to the shelf. A second restraining device is associated with the support structure in a second location. The second restraining device is configured to secure the electronic component via one or more fastening elements.
According to the invention, there is provided seed and plants of the hybrid corn variety designated CH757483. The invention thus relates to the plants, seeds and tissue cultures of the variety CH757483, and to methods for producing a corn plant produced by crossing a corn plant of variety CH757483 with itself or with another corn plant, such as a plant of another variety. The invention further relates to genetic complements of plants of variety CH757483.
According to the invention, there is provided seed and plants of the hybrid corn variety designated CH146292. The invention thus relates to the plants, seeds and tissue cultures of the variety CH146292, and to methods for producing a corn plant produced by crossing a corn plant of variety CH146292 with itself or with another corn plant, such as a plant of another variety. The invention further relates to genetic complements of plants of variety CH146292.
A novel soybean variety, designated XB003B12 is provided. Also provided are the seeds of soybean variety XB003B12, cells from soybean variety XB003B12, plants of soybean XB003B12, and plant parts of soybean variety XB003B12. Methods provided include producing a soybean plant by crossing soybean variety XB003B12 with another soybean plant, methods for introgressing a transgenic trait, a mutant trait, and/or a native trait into soybean variety XB003B12, methods for producing other soybean varieties or plant parts derived from soybean variety XB003B12, and methods of characterizing soybean variety XB003B12. Soybean seed, cells, plants, germplasm, breeding lines, varieties, and plant parts produced by these methods and/or derived from soybean variety XB003B12 are further provided.
The present invention relates to a method for identifying and isolating native plant nucleic acid sequences that may function as T-DNAs or T-DNA border-like sequences, effecting the transfer of one polynucleotide into another polynucleotide. The present invention also provides a modified tuber, such as a genetically modified mature tuber, that comprises at least one trait that is not exhibited by a non-modified tuber of the same species.
The present invention relates to enzymes involved in lipid metabolism. In particular, the present invention provides coding sequences for Arabidopsis Desaturases (ADS), the encoded ADS polypeptides, and methods for using the sequences and encoded polypeptides, where such methods include decreasing and increasing saturated fatty acid content in plant seed oils.
A novel maize variety designated X00C219 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 X00C219 with another maize plant. Methods for producing a maize plant containing in its genetic material one or more traits introgressed into X00C219 through backcross conversion and/or transformation, and to the maize seed, plant and plant part produced thereby. This invention relates to the maize variety X00C219, the seed, the plant produced from the seed, and variants, mutants, and minor modifications of maize variety X00C219. This invention further relates to methods for producing maize varieties derived from maize variety X00C219.
Devices, kits and methods described herein may be for wound healing, including the treatment, amelioration, or prevention of scars and/or keloids by applying and/or maintaining a pre-determined strain in an elastic skin treatment device that is then affixed to the skin surface using skin adhesives to transfer a generally planar force from the bandage to the skin surface. Applicators are used to apply and/or maintain the strains, and some of the applicators are further configured to provide at least some mechanical advantage to the user when exerting loads onto the skin treatment device.
A process comprising: contacting a blend of hydrocarbons under hydroconversion conditions in a hydroconversion zone with a mixture of an acidic ionic liquid catalyst and at least one alkyl halide comprising at least 55 wt % halide and having a boiling point of 70° C. or higher. An alkylation process comprising: contacting a blend of hydrocarbons under alkylation conditions with a mixture of an acidic ionic liquid catalyst that is a chloroaluminate and at least one alkyl halide comprising 1,1,1-trichloroethane, tetrachloroethylene, or a mixture thereof; wherein greater than 99.9 wt % of an at least one olefin in the blend of hydrocarbons is alkylated. Also, a hydroconversion process comprising drying the alkyl halide.
A method of producing a mixed manganese ferrite catalyst, and a method of preparing 1,3-butadiene using the mixed manganese ferrite catalyst. Specifically, a method of producing a mixed manganese ferrite catalyst through a coprecipitation method which is performed at a temperature of 10˜40° C., and a method of preparing 1,3-butadiene using the mixed manganese ferrite catalyst through an oxidative dehydrogenation reaction, in which a C4 mixture containing n-butene, n-butane and other impurities is directly used as reactants without performing additional n-butane separation process or n-butene extraction. 1,3-butadiene can be prepared directly using a C4 mixture including n-butane at a high concentration as a reactant through an oxidative hydrogenation reaction without performing an additional n-butane separation process, and 1,3-butadiene, having high activity, can be also obtained in high yield for a long period of time.
Systems and methods for processing one or more hydrocarbons are provided. In one or more embodiments, the method can include thermally converting a hydrocarbon comprising methane to produce a first product comprising acetylene. The method can also include hydrogenating the first product to produce a second product comprising ethylene. The method can further include catalytically reacting the second product with one or more butene products to produce a third product comprising propylene.
A process for the selective dehydrochlorination of a hydrochlorofluoroalkane by using chloride fluorides of Ba, Ca, or Sr as catalysts, wherein the hydrochlorofluoroalkane comprises a carbon atom or carbon atoms carrying at least one chlorine and at least one fluorine atom and further comprises at least one hydrogen atom on a carbon atom vicinal to the carbon atom or to the carbon atoms carrying the at least one chlorine and at least one fluorine atom.
The invention relates to a method for producing alkylene oxide addition products by reaction of compounds having a nucleophilic center with alkylene oxides in a reactor having a large inner surface. The invention is characterized in that the reaction is carried out exclusively in the liquid phase.
A process for the preparation of 1-ethynyl-3,3-dimethylcyclohexan-1-ol from dimedone by a reaction sequence of reduction and ethynylation and its further transformation into green ketone.
The present invention relates to the use of aromatic boronic acid or borinic acid derivatives in organic electronic devices, in particular electroluminescent devices.
Disclosed herein is a sequential functionalization methodology for the covalent modification of nanotubes with between one and four repeat units of a polymer. Covalent attachment of oligomer units to the surface of nanotubes results in oligomer units forming an organic sheath around the nanotubes, polymer-functionalized-nanotubes (P-NTs). P-NTs possess chemical functionality identical to that of the functionalizing polymer, and thus provide nanoscale scaffolds which may be readily dispersed within a monomer solution and participate in the polymerization reaction to form a polymer-nanotube/polymer composite. Formation of polymer in the presence of P-NTs leads to a uniform dispersion of nanotubes within the polymer matrix, in contrast to aggregated masses of nanotubes in the case of pristine-NTs. The covalent attachment of oligomeric units to the surface of nanotubes represents the formation of a functional nanoscale building block which can be readily dispersed and integrated within the polymer to form a novel composite material.
This invention is directed generally to a process for producing Zeranol that eliminates high pressure and high temperature hydrogenations and provides high selectivity for Zeranol at improved yields.
It is intended to provide a salt of a compound and crystals thereof useful as a therapeutic and/or preventive agent for infectious diseases which has wide and excellent antibacterial activity and has excellent safety.[Solution]The present invention provides the hydrochloride of 7-[(1R,5S)-1 -amino-5-fluoro-3-azabicyclo[3.3.0]octan-3-yl]-6-fluoro-1-[(1R,2S)-2 -fluorocyclopropan-1-yl]-1,4-dihydro-8-methyl-4-oxoquinoline-3-carboxylic acid and crystals thereof, as a novel salt form of the compound and crystals thereof.
The invention is directed to compounds of Formula I: wherein Z, X, J, R2 and W are as set forth in the specification, as well as solvates, hydrates, tautomers and pharmaceutically acceptable salts thereof, that inhibit protein tyrosine kinases, especially c-fms kinase. The compounds of formula I are useful for treating a variety of disorders including autoimmune diseases such as rheumatoid arthritis, multiple sclerosis and psoriasis.
The present invention provides triallyl isocyanurate comprising a less amount of corrosive substances by identifying the corrosive substances among impurities included in the triallyl isocyanurate. Triallyl isocyanurate of the present invention comprises an organic chlorine compound represented by the following chemical formula (I) in an amount of not more than 500 ppm: wherein a bond expressed by a wavy line indicates that the organic chlorine compound is a cis-type compound, a trans-type compound or a mixture comprising the cis-type and trans-type compounds at an optional ratio.
The present invention provides a Michael addition reaction product between a specified compound having a group which functions as a Michael donor and a monomer or polymer having a group which functions as a Michael acceptor, a photoinitiator containing the Michael addition reaction product, and an active energy ray-curable composition containing the photoinitiator. The compound having a group functioning as a Michael donor used in the present invention is a phenyl ketone derivative and is characterized by having an amino group or a mercapto group as the group functioning as a Michael donor.
The present disclosure relates to processes useful in the isolation and purification of enfumafungin, which is classified as a triterpene glycoside antifungal compound and acts as a glucan synthase inhibitor. Enfumafungin has application in the treatment of conditions caused by fungal infection and is also useful as an intermediate in the preparation of other compounds useful as antifungal agents and/or inhibitors of (1,3)-β-D-glucan synthesis.
The invention provides isolated BTL-II proteins, nucleic acids, antibodies, antagonists, and agonists and methods of making and using the same. Diagnostic, screening, and therapeutic methods using the compositions of the invention are provided. For example, the compositions of the invention can be used for diagnosis and treatment of inflammatory bowel diseases and for enhancing a mucosal immune response to an antigen.
The present invention concerns methods and compositions that employ peptides that target dorsal root ganglion (DRG) neurons. In particular, the peptides are used to target therapeutic agents, such as proteins, liposomes, or viral particles comprising therapeutic polynucleotides, to one or more peripheral neuropathies or neuropathic pain, for example. In particular cases, the peripheral neuropathies or neuropathic pain is caused directly or indirectly by DRG neuronopathy.
According to the present invention, peptides having the amino acid sequence of SEQ ID NOs: 14, 21, 23, 27, 36, 46, 57, 60 and 62 were demonstrated to have cytotoxic T lymphocyte (CTL) inducibility. Therefore, the present invention provides a peptide having the amino acid sequence selected from among SEQ ID NOs: 14, 21, 23, 27, 36, 46, 57, 60 and 62. The peptide can include one, two, or several amino acid substitutions, deletions, insertions, or additions so long as its CTL inducibility is retained. Furthermore, the present invention provides pharmaceutical agents for the treatment and/or prophylaxis of cancers, and/or prevention of postoperative recurrence thereof, which contain any of these peptides. Pharmaceutical agents of this invention include vaccines.
Compositions comprising at least one hole transport material, such as a conjugated polymer, and at least one dopant, providing improved thermal stability. Compositions can be applied to substrates and used in HIL and HTL layers and organic electronic devices such as light emitting devices such as OLEDs or OPVs. The conjugated polymer can be a polythiophene, including a 3,4-substituted polythiophene or a regioregular polythiophene. The dopant can be a silver salt such as silver tetrakis(pentafluorophenyl)borate. Improved methods of making dopant are provided.
A low dielectric constant material having an excellent water resistance obtained by heat-treating a borazine compound of the formula (1-2): or an inorganic or organic compound having a group derived from the borazine compound (1-2) to undergo a condensation reaction, thereby producing an oligomer or polymer, wherein R1 to R6 are independently a hydrogen atom, an alkyl group having 1 to 20 carbon atoms, an aryl group, a substituted aryl group, an alkenyl group, an amino group, an alkylamino group, an alkoxyl group, a thioalkoxyl group, a carbonyl group, a silyl group, an alkylsilyl group, a phosphino group, an alkylphosphino group, or a group of the formula: Si(OR7)(OR8)(OR9), and at least one of R1 to R6 is not hydrogen atom.
The invention pertains to the field of membrane protein immobilization onto supports. It relates to a product comprising a support and at least one membrane protein attached to the surface thereof, characterized in that said membrane protein is attached to said support using an amphiphilic molecule with which said membrane protein is complexed. It also relates to a process for preparing such product, as well as to various applications in the fields of diagnosis, drug design and biotechnologies. It further relates to a kit, together with a functionalized amphiphilic molecule, for preparing a product according to the invention comprising a support and an amphiphilic molecule, wherein the amphiphilic molecule and the support interact through a hydrophobic bond, an ionic bond, a specific bond or a covalent bond.
There is provided a photosensitive resin composition having desired properties. A photosensitive resin composition comprising: a component (A) that is a copolymer including a structural unit of Formula (1) and at least one structural unit of Formula (2), and a component (B) that is a photosensitizer: (where two Xs are independently a hydrogen atom, a C1-5 alkyl group, a C5-6 cycloalkyl group, a phenyl group, or a benzyl group and Y is a hydrogen atom, a C1-5 alkyl group, a C5-6 cycloalkyl group, a phenyl group, or a benzyl group provided that each of a part or all of the hydrogen atoms in the alkyl group, the cycloalkyl group, the phenyl group, and the benzyl group is optionally substituted with a halogen atom, a carboxy group, a hydroxy group, an amino group, or a nitro group).
A silicon-containing polymer represented by the following average unit formula: (O2/2SiR1-R2-C6H4-R2-SiR1O2/2)x [R3 SiO(4-a)/2]y(R4O1/2)z (wherein R1 designates identical or different, substituted or unsubstituted monovalent hydrocarbon groups; R2 designates identical or different, substituted or unsubstituted alkylene groups; R3 designates substituted or unsubstituted monovalent hydrocarbon groups; R4 designates alkyl groups or hydrogen atoms; ‘a’ is a positive number that satisfies the following condition: 0=a=3; and ‘x’, ‘y’, and ‘z’ are positive numbers that satisfy the following conditions: 0
Sulfonated graft copolymer obtained by radical graft copolymerization of one or more synthetic monomers in the presence of hydroxyl-containing naturally derived materials. The graft copolymer includes 0.1 to 100 wt %, based on weight of the total synthetic monomers, of at least one monoethylenically unsaturated monomer having a sulfonic acid group, monoethylenically unsaturated sulfuric acid ester or salt thereof, with the monomer and hydroxyl-containing naturally derived materials present in a weight ratio of 5:95 to 95:5.
There is provided a novel process for preparing polyamides (in particular cyclic and hairpin polyamides) comprising the step of coupling an amine with a Boc-protected amino acid monomer in the presence of diphosgene and/or triphosgene. Such a process may be performed on a solid or solution phase.
A process for controlling the scorch time (ST) in the vulcanization of vulcanizable blends containing a composition to be vulcanized, hydrophobized silicic acid and zinc oxide particles wherein the scorch time control is effected by the size and number of zinc oxide particles (amount). The process of the invention is also suitable for preparing vulcanized rubber articles.
Polymer-encapsulated pigment which includes a pigment core and a polymer shell, the shell being a polymerized polymer including hydrophobic monomers and acidic monomers, and also including a specific cross-linking agent.
The present invention provides: an ink composition which contains at least a polymerizable compound, a photopolymerization initiator and a coloring material, and is free from an aqueous solvent, wherein the polymerizable compound comprises at least a urethane oligomer; a two-pack curing ink composition set comprising an ink composition containing a coloring material and a reaction liquid containing a photopolymerization initiator and capable of forming an image with an ink composition obtained by mixing the ink composition and the reaction liquid, wherein the ink composition after mixing contains at least a polymerizable compound, a photopolymerization initiator and a coloring material, and is free from an aqueous solvent, wherein the polymerizable compound comprises a urethane oligomer.
The two-part curable polyurethane foam resin composition uses little or no petroleum-derived raw materials but a plant-derived raw material so that the biomass ratio can be improved, the load on the environment can be reduced, and excellent physical characteristics can be exhibited. The two-part curable polyurethane foam resin composition includes a main agent that contains an isocyanate-terminated urethane prepolymer (A) and a curing agent that contains an isocyanate-reactive compound (B), water (C), and a catalyst (D), in which a polyol component used in (A) and (B) uses a castor oil polyol (b1) having 1.5 to 2.3 functional groups on average and a polyol (b2) prepared by addition polymerization of lactone to polytetramethylene glycol and/or polytetramethylene glycol (b3), the ratio (b1)/(b2) and/or (b3)=15/85 to 60/40 on a mass basis, and a content of the castor oil polyol (b1) is 10 to 45% by mass.
This invention relates to certain ceramide-analogues of FTY720 (2-amino-2-[2-(4-octylphenyl)ethyl]propane-1,3-diol; fingolimod). In particular, the present invention relates to pharmaceutical compositions comprising these compounds, as well as processes for their preparation and their use in the treatment of autoimmune conditions, such as multiple sclerosis.
Phenylcyclobutylamide derivatives and their optical isomers, the preparing processes and the uses thereof, which includes the compounds of formula (I), their pure stereoisomers and their pharmaceutically acceptable salts. In formula (I), R is H, formacyl, acetyl, haloacetyl, benzoyl, benzyloxy carbonyl (Cbz), t-butoxy carbonyl (Boc), or 9-fluorenyl methoxyl carbonyl (Fmoc). The present novel compounds have pharmaceutical activity and are prepared by condensation reaction of racemic, levo- or dextro-demethyl Sibutramine and racemic or D/L isoleucine under a mild condition. It is demonstrated that the present compounds have effect of losing weight to obese mode rats in different level and the effect is better than Sibutramine by the animal experiments. So the medicaments prepared by the present compounds or the medicaments prepared by the compositions of the present compounds and other pharmaceutical activity compounds may be used for treating obesity.
S-alkylsiothiouronium derivatives such as S-ethylisothiouronium diethylphosphate are used for the treatment of headaches, in particular, migraines, as well as for the prevention or treatment of nausea and vomiting. The compositions of the invention are also effective in preventing or alleviating emesis associated with migraines or other medical conditions such as chemotherapy or radiotherapy, as well as other symptoms of migraines including phonophobia and photophobia.
Disclosed are novel isoflavone derivatives having the structure of Formula I: which are ALDH-2 inhibitors, useful for treating a patient in need thereof, for dependence upon drugs of addiction, for example addiction to dopamine-producing agent such as cocaine, morphine, amphetamines, nicotine, and alcohol.
The present invention provides pharmaceutical compositions comprising: (a) a modulator of hepatic parasympathetic tone, (b) at least one diabetes drug, and (c) a pharmaceutically acceptable carrier. The present invention includes methods for the treatment and/or prevention of insulin resistance, type 2 diabetes, impaired glucose intolerance, and other associated disorders with pharmaceutical compositions described herein. The invention also provides for a kit comprising a pharmaceutical composition and instructions for its use.
The present invention provides an indomethacin-containing external liquid preparation which provides good feeling of use, which exhibits high percutaneous absorption of indomethacin, and which, particularly in a low-temperature environment, does not cause precipitation of crystals with time.The present invention is drawn to an external liquid preparation containing indomethacin, a lower alcohol, water, a sulfite, and polyethylene glycol having an average molecular weight of 3,000 to 15,000.
Imido-acid salts and compositions containing imido-acid salts are described herein. Methods of their preparation and use are also described herein. The methods of using the imido-acid salts include the reduction of volatile compounds from gas and liquid streams and the delivery of pharmaceutical agents to subjects.
The present invention discloses compounds of Formula (I), or pharmaceutically acceptable salts, esters, or prodrugs thereof: which inhibit RNA-containing virus, particularly the hepatitis C virus (HCV). Consequently, the compounds of the present invention interfere with the life cycle of the hepatitis C virus and are also useful as antiviral agents. The present invention further relates to pharmaceutical compositions comprising the aforementioned compounds for administration to a subject suffering from HCV infection. The invention also relates to methods of treating an HCV infection in a subject by administering a pharmaceutical composition comprising the compounds of the present invention.
Embodiments of the present invention are directed to compositions and methods for the treatment of purpura. Preferred compositions comprise an α adrenergic receptor agonist selected from selective α1 adrenergic receptor agonist, selective α2 adrenergic receptor agonist, non-selective α1/α2 adrenergic receptor agonist, agents with α2 adrenergic receptor agonist activity and combinations thereof, in a pharmaceutically acceptable carrier in order to treat and improve the cosmetic appearance of hemorrhagic (purpuric) lesions in the skin.
Benzoxepin compounds of Formula I, and including stereoisomers, geometric isomers, tautomers, solvates, metabolites and pharmaceutically acceptable salts thereof, are useful for inhibiting lipid kinases including p110 alpha and other isoforms of PI3K, and for treating disorders such as cancer mediated by lipid kinases. Methods of using compounds of Formula I for in vitro, in situ, and in vivo diagnosis, prevention or treatment of such disorders in mammalian cells, or associated pathological conditions, are disclosed.
An isoxazoline-substituted benzamide compound of formula (1) or a salt thereof: wherein A1, A2 and A3 independently of one another are carbon atom or nitrogen atom, G is benzene ring, etc., W is oxygen atom or sulfur atom, etc., X is halogen atom, C1-C6haloalkyl, etc., Y is halogen atom, C1-C6alkyl, etc., R1 is —CH═NOR1a, —C(O)OR1c, —C(O)NHR1d, phenyl substituted with (Z)p1, D-14, D-52, D-53, D-55 to D-59, etc., R1a is C1-C6alkyl, etc., R1c is C1-C6alkyl, etc., R1d is hydrogen atom, —C(O)R15, —C(O)OR15, etc., R2 is C1-C6alkyl, —CH2R14a, C1-C6alkynyl, —C(O)R15, —C(O)OR15, etc., further when R1 is —CH═NOR1a, —C(O)OR1c or —C(O)N(R1e)R1d, R2 may be hydrogen atom, R3 is C1-C6haloalkyl, etc., R14a is cyano, —OR25, etc., R15 is C1-C6alkyl, C1-C6haloalkyl, C1-C4alkoxy C1-C4alkyl, C1-C4alkylthio C1-C4alkyl, C3-C6cycloalkyl, C2-C6alkenyl, etc., R25 is C1-C4alkyl, C1-C4haloalkyl, —C(O)R32 or —C(O)OR32, etc., R32 is C1-C6alkyl or C3-C6cycloalkyl, etc., Z is halogen atom, cyano, nitro, C1-C6alkyl, C1-C6alkoxy, etc., m is an integer of 0 to 5, n is an integer of 0 to 4, p1 is an integer of 1 to 5. The pesticide containing these compounds.
Methods of treating Tau-associated diseases, preferably tauopathies, are described using epothilone D that exhibit good brain penetration, long half-life, and high selective retention in brain, and provides effective therapies in treating tauopathies including Alzheimer's disease.
Methods of treating, preventing and/or managing cancer as well as and diseases and disorders associated with, or characterized by, undesired angiogenesis are disclosed. Specific methods encompass the administration of an immunomodulatory compound alone or in combination with a second active ingredient. The invention further relates to methods of reducing or avoiding adverse side effects associated with chemotherapy, radiation therapy, hormonal therapy, biological therapy or immunotherapy which comprise the administration of an immunomodulatory compound. Pharmaceutical compositions, single unit dosage forms, and kits suitable for use in methods of the invention are also disclosed.
This invention provides the treatment of viral infections with a 4,6-disubstituted or 2,4,6-trisubstituted quinazoline derivative represented by the structural formula [(I)] wherein: R2 is selected from the group consisting of hydrogen, NR′R″ and C1-7 alkyl; —A is selected from the group consisting of a bond, O, S(O)n, C1-7 alkylene, C2-7 alkenylene and C2-7 alkynylene; R4 is selected from the group consisting of C1-7 alkyl, C2-7 alkenyl, C3-10cycloalkyl, C3-10 cycloalkenyl, aryl, heterocyclic, arylalkyl, heterocyclic-substituted alkyl and cycloalkyl-alkyl; —Y is selected from the group consisting of a single bond, C1-7 alkylene, C2-7 alkenylene, and C2-7 alkynylene; n is 0, 1 or 2; and R6 is selected from the group consisting of halogen, heteroaryl and aryl; a pharmaceutically acceptable addition salt, a stereoisomer, a mono- or a di-Λ/-oxide, a solvate or a pro-drug thereof.
and salts thereof, formulations thereof, conjugates thereof, derivatives thereof, forms thereof and uses thereof are described. In certain aspects and embodiments, the described compounds of Formula (I) or salts thereof, formulations thereof, conjugates thereof, derivatives thereof, forms thereof are active on at least one Raf protein kinase. In certain aspects and embodiments, the described compounds are active in inhibiting proliferation of a Ras mutant cell line. Also described are methods of use thereof to treat diseases and conditions, including diseases and conditions associated with activity of B-Raf V600E mutant protein kinase, including melanoma, glioma, glioblastoma multiforme, pilocytic astrocytoma, colorectal cancer, thyroid cancer, lung cancer, ovarian cancer, prostate cancer, liver cancer, gallbladder cancer, gastrointestinal stromal tumors, biliary tract cancer, and cholangiocarcinoma. Also described are methods of use thereof to treat diseases and conditions, including diseases and conditions associated with activity of c-Raf-1 protein kinase, including acute pain, chronic pain or polycystic kidney disease.
The specification describes the use of selected DPP IV inhibitors for the treatment of physiological functional disorders and for reducing the risk of the occurrence of such functional disorders in at-risk patient groups. In addition, the use of the above-mentioned DPP IV inhibitors in conjunction with other active substances is described, by means of which improved treatment outcomes can be achieved. These applications may be used to prepare corresponding medicaments.
This invention concerns N-(ortho phenylamino dihydropyridyl)sulfonamides and N-(ortho phenylamino dihydropyridyl), N′-alkyl sulfamides which are inhibitors of MEK and are useful in the treatment of cancer and other hyperproliferative diseases.
The invention features methods of treating visceral pain or a condition in a mammal caused by the action of nitric oxide synthase (NOS) or by the action of serotonin 5HT1D/1B receptors, by administering to a patient in need thereof a therapeutically effective amount of an indole compound of Formula (I), or a pharmaceutically acceptable salt or prodrug thereof. The methods of the invention may further comprise the administration of additional therapeutic agent. The invention also features new compounds of Formula (I), pharmaceutical compositions thereof, and methods of resolving enantiomeric mixtures.
The invention concerns chromenone derivatives of Formula I or a pharmaceutically-acceptable salts thereof, wherein each of R1, R2, R3, R4, R5, R6, R7, R8, n and R9 has any of the meanings defined hereinbefore in the description; processes for their preparation, pharmaceutical compositions containing them and their use in the manufacture of a medicament for use in the treatment of cell proliferative disorders.
The present invention provides a compound of formula (I) or its salts or pharmaceutically acceptable derivatives thereof wherein X1, R1, R2, R3, R4, and R5 are defined as set forth in the specification. The compounds are useful as potassium ion channel inhibitors.
This invention relates to novel compounds of the Formula Ik, Im1, Im2, Im5, In1, In2, In5, Io1, Io2, Io5, Ip1, Ip3, pharmaceutically acceptable salts thereof, and pharmaceutical compositions thereof, which are useful for the therapeutic treatment of diseases associated with the modulation or inhibition of 11β-HSD1 in mammals. The invention further relates to pharmaceutical compositions of the novel compounds and methods for their use in the reduction or control of the production of cortisol in a cell or the inhibition of the conversion of cortisone to cortisol in a cell.
The invention provides 1,4-benzodiazepinone compounds, pharmaceutical compositions, and methods of treating autoimmune disorders, chronic inflammatory disorders, and hyperproliferative disorders. For example, the 1,4-benzodiazepinone compounds and pharmaceutical compositions are contemplated to be useful for treating rheumatoid arthritis, graft-versus-host disease, inflammatory bowel disease, and the like.
[PROBLEM] The compound that selectively binds to BLT2 and the preventive and/or therapeutic drug for BLT2-mediated disease such as skin disease are needed.[MEANS FOR SOLVING THE PROBLEMS] The present invention provides the compound with BLT2 binding activity, salt thereof, solvate thereof or prodrug thereof. Since the compound with BLT2 binding activity, particularly the compound represented by the formula (I), salt thereof, solvate thereof or prodrug thereof (symbols in formula have the same meanings as specification.) have BLT2 binding activity, it is useful for prevention and/or therapy of BLT2 mediated diseases, e.g., dermatosis, intestinal disease, HIV infection, acquired immunodeficiency syndrome, rejection to transplant, transplant rejection, graft-versus-host disease, autoimmune disease, allergic disease, inflammation, infection, ulcers, lymphoma, malignant tumor, leucaemia, arterial sclerosis, hepatitis, hepatic cirrhosis or cancer, etc.
The present disclosure relates to pantothenate derivatives for the treatment of neurologic disorders (such as pantothenate kinase-associated neurodegeneration), pharmaceutical compositions containing such compounds, and their use in treatment of neurologic disorders.
A pharmaceutical composition for use in the prevention and/or treatment of a neurodegenerative disorder comprising a compound comprised of one or more disaccharide units, the or each disaccharide unit comprising a uronate moiety linked to a glucosamine moiety, wherein the 2-O atom of the uronate moiety is substituted with a hydrogen atom, the 6-O atom of the glucosamine moiety is substituted with a sulphate group and the 2-N atom of the glucosamine moiety is substituted with an atom or group other than a sulphate group. The composition is particularly preferred for use in the prevention and/or treatment of Alzheimer's disease.
The present invention provides methods for determining the level of resistance of a tumor cell to one or more chemotherapeutic agents, comprising measuring the level of expression of a muscle ankyrin repeat protein in the tumor cell. The invention also provides methods for increasing the sensitivity of a tumor cell to one or more chemotherapeutic agents, comprising administering to the cell an effective amount of an antagonist of a muscle ankyrin repeat protein. The invention further provides compositions for use in accordance with methods of the invention.
It has been discovered that granulocyte macrophage colony stimulating factor (“GM-CSF”) promotes migration of activated (but not differentiating) keratinocytes to wound sites. It was also discovered that GM-CSF increases the quantity and improves the quality of collagen. This growth factor specifically increases migration of keratinocytes of the “wound” phenotype but does not have significant effects upon differentiated keratinocytes. Examples demonstrate reversal of skin impairment in multiple animal models of diabetic skin imparment when provided in an effective amount over an effective time period. The examples also demonstrate the efficacy of the formulations in cosmetic applications. A preferred formulation is a sustained release formulation that delivers sufficient growth factor to the skin and the underlying tissue thereof to increase the rate of keratinocyte migration, as well as collagen deposition and fibroblast proliferation, in the skin to promote rejuvenation of skin injuries resistant to repair due to underlying disease, such as diabetes, or aging.
The present invention provides an agent having a suppressive action against the thickening of the heart wall, a prophylactic agent for heart failure containing the above described agent, and functional foods expected to have a prophylactic effect for heart failure. The agent for suppressing heart wall thickening comprises Xaa Pro Pro as an active ingredient.
Provided herein are methods and devices for inducing the formation of functional replacement nonarticular cartilage tissues and ligament tissues. These methods and devices involve the use of osteogenic proteins, and are useful in repairing defects in the larynx, trachea, interarticular menisci intervertebral discs, ear, nose, ribs and other fibrocartilaginous tissues in a mammal.
The present disclosure relates to methods for treating neuronal disorders using a motoneuronotrophic factor (MNTF) or its peptide analogs. The present disclosure further relates to methods for treating a spinal cord injury, a neurodegenerative disease, a stroke or cerebral ischemia, Huntington's Disease, Parkinson's Disease, Multiple Sclerosis, amyotrophic lateral sclerosis (ALS), Alzheimer's Disease, and diabetic neuropathy in a subject by administration of motoneuronotrophic factor (MNTF) or its peptide analogs.
The method for transferring a foreign substance provided by the present invention includes the steps of: preparing a construct for transferring a foreign substance that contains a carrier peptide fragment including either the amino acid sequence WRRQARFK (SEQ ID NO. 1) or any amino acid sequence formed by the substitution, deletion, and/or addition (insertion) of 1, 2, or 3 amino acid residues in the amino acid sequence, and a foreign substance of interest that is bonded to the N-terminus and/or C-terminus of the carrier peptide fragment; supplying the construct for transferring a foreign substance to a test sample that contains a target eukaryotic cell; and incubating the test sample that has been supplied with the construct for transferring a foreign substance to thereby transfer the construct into the eukaryotic cell in the test sample.
The present invention provides spreading agents based on sequence-specific oligomers comprising a peptoid, a peptide-peptoid chimera, a retropeptoid or a retro(peptoid-peptide) chimera, and methods for using the same, including for the treatment of respiratory distress of the lungs. The spreading agents are sequence-specific oligomers, including retrosequence-specific oligomers, based on a peptide backbone, that are designed as analogs of surfactant protein-B or surfactant protein-C.
The invention refers to pharmaceutical compositions and cosmetic compositions comprising a prophylactic or therapeutically effective quantity of at least one polypeptide substantially identical to Lopap (a lipocalin-related protein with prothrombin activating protease activity). The invention refers to the use of these compositions as modulators of cell death and anti-aging agents.
A shaped solid cleaning composition, especially in bar format, which utilises the detergency properties of new materials which are more efficient, relatively inexpensive and are environmentally friendly alternatives to conventional soaps or synthetics surfactants; more particularly, a shaped solid cleaning composition which comprises a specific amount of structuring agent and a specific amount of a treated particle. The precursor of the treated particle is an asymmetric 1:1 or 2:1:1 clay particle having alternating tetrahedral and octahedral sheets terminating with a tetrahedral sheet at a first external surface plane and an octahedral sheet at a second external surface plane. Either or both of said external surfaces is attached with a fatty acid or derivative thereof.
Laundry detergent compositions comprising 0.00001% to 0.01% by weight of reactive dyes are disclosed. The laundry detergent compositions provide the benefit of imparting a favorable shade to fabrics without undesirable buildup of dyes on the fabrics.
The present invention comprises an iron complexing mixture and method of using same wherein beneficial performance and natural gas pipeline cleaning methods are employed. The synergistic improvement of combining two water-soluble metal complexing agents, THPS and IDS, prove to offer advantages in performance over the individual use of either chemical.
A low irritancy cleansing composition comprises: (a) an anionic surfactant compound of formula (I): wherein R1 represents a C4-36 substituted or unsubstituted hydrocarbyl group; each of R2, R3, R4 and R5 independently represents a hydrogen atom or a C1-4 alkyl group and wherein at least one of R2, R3, R4 and R5 is not hydrogen and M+ represents a cation; and (b) an amphoteric surfactant; wherein the molar ratio of component (a) to component (b) is from 0.25:1 to 4:1 and wherein the composition comprises less than 3 wt % polyethoxylated non-ionic species.
It is an object of the present invention to provide a grease composition (7) which can be used for a long term in a wide temperature range from low to high temperatures by using comparatively inexpensive base oil. It is another object of the present invention to provide a rolling bearing and a universal joint in which the grease composition (7) is enclosed. The grease composition (7) is composed of base grease, consisting of base oil and a thickener, to which an additive is added. The base oil contains not less than 50 wt % of highly refined oil having a viscosity index of 120 to 180. The additive contains at least ZnDTP and 0.2 to 6 parts by weight of poly (metha) acrylate having a kinematic viscosity of not less than 100 mm2/s and less than 850 mm2/s at 100° C. for 100 parts by weight of the base grease. The grease composition (7) is enclosed in the circumferences of rolling elements (4) of a rolling bearing (1).
A thin adhesive lubricating composition that can cover at least one thread and a screwing abutment of a threaded element of a component of a tubular threaded joint. The screwing abutment can bear against another abutment of another component of the tubular threaded joint in a terminal make up phase. The lubricating composition includes a matrix in which there is dispersed at least one braking additive selected to impart thereto, in addition to lubrication, a coefficient of friction to make it possible to obtain a torque on shoulder resistance value at least equal to a threshold value.
The present invention relates to a method of identifying a compound involved in pain, the use of Epsti1 nucleic acid or Epsti1 protein for identifying a compound involved in pain as well as methods of diagnosing algesia involving the same.
Surfactant compounds which include an amine ended polyalkylene glycol hydrophile linked to C22 to C60 mainly hydrocarbyl, particularly composite hydrocarbyl, especially derived from a polymerised fatty acid and/or an aralkyl substituted phenol, hydrophobe, are useful in dispersing solids, particularly active agrochemicals, in aqueous media, or as adjuvants in agrochemical formulations, particularly of water soluble non-selective herbicides. In particular the hydrophobe is derived from polymerised fatty acids, such as dimer and, especially, trimer acids or from aralkyl substituted phenols. Aqueous dispersions using such surfactants can remain stable even with substantial concentrations of electrolyte e.g. in stable agrochemical dispersions including water soluble electrolyte agrochemical, such as glyphosate and/or ammonium sulphate.
A system for storing and retrieving elemental hydrogen. The system includes a housing, a hydrogen storage element enclosed within the housing and having a solid-state hydrogen storage material, and a control system for regulating storage of hydrogen into and retrieval of hydrogen from the storage material. At least a portion of the storage material is a porous matrix material having atoms of a first element capable of bonding with more than one hydrogen atom per atom of the first element, and atoms of a second element capable of molecularly bonding to atoms of the first element and hydrogen. Different atoms of the first element have bond sites available for different numbers of hydrogen atoms at different levels of bonding energy. The atoms of the second element are bonded to those atoms of the first element having bond sites for more than one hydrogen atom.
Methods of fabricating nano particulate Titanium dioxide photocatalysts onto a conducting substrate are disclosed. The methods include hydrothermal fabrications with heat treatment steps to increase the crystallinity and photoactivity of the titanium dioxide layers.
The invention provides a catalyst for catalytically removing three components, which are carbon monoxide, hydrocarbons and nitrogen oxides, from combustion exhaust gas generated by combusting fuel at around the stoichiometric air to fuel ratio. The catalyst includes: (A) a first catalyst component including at least rhodium, platinum, or palladium in a content of 0.01 to 0.5% by weight; and (B) a second catalyst component, which is the remainder, including a composite oxide or a mixed oxide including (a) at least zirconium oxide or titanium oxide, and (b) an oxide of at least praseodymium, yttrium, neodymium, tungsten, niobium, silicon, or aluminum, wherein the content of the oxide (a) in the composite oxide or the mixed oxide is in a range of 70 to 95% by weight. The invention further provides a two-layer catalyst that includes a surface catalyst layer containing the above-mentioned catalyst.
The invention concerns a process for regenerating a catalyst for the production of aromatic hydrocarbons or for reforming. Said process comprises a step for combustion in a zone A comprising at least 2 beds A1 and A2, a step for oxychlorination in a zone B, and a step for calcining in a zone C. A portion of the effluent gas from the oxychlorination zone is recycled via at least one scrubbing section D to the inlet to beds A1 and A2. Further, a portion of the effluent gas from zone B is recycled, passing via a blower and without passing via said scrubbing section D, to the combustion bed A2.
A dielectric ceramic and a laminated ceramic capacitor using the dielectric ceramic are achieved which provide favorable thermal shock resistance without damaging properties or characteristics such as dielectric properties, insulation properties, temperature characteristics, and characteristics in high temperature loading, even when the dielectric layers are reduced in thickness and the number of stacked layers increased. The dielectric ceramic contains, as its main constituent, a barium titanate based compound represented by the general formula ABO3, and a crystalline oxide containing Al, Mg, and Si is present as secondary phase grains in the dielectric ceramic.
A NAND flash memory device includes a plurality of continuous conductors disposed on a common level of a multilayer substrate, the plurality of continuous conductors including respective conductive lines extending in parallel along a first direction, respective contact pads disposed at ends of the respective conductive lines and respective conductive dummy lines extending in parallel from the contact pads along a second direction.
A method of processing a semiconductor substrate in forming scribe line alignment marks includes forming pitch multiplied non-circuitry features within scribe line area of a semiconductor substrate. Individual of the features, in cross-section, have a maximum width which is less than a minimum photolithographic feature dimension used in lithographically patterning the substrate. Photoresist is deposited over the features. Such is patterned to form photoresist blocks that are individually received between a respective pair of the features in the cross-section. Individual of the features of the respective pairs have a laterally innermost sidewall in the cross-section. Individual of the photoresist blocks have an opposing pair of first pattern edges in the cross-section that are spaced laterally inward of the laterally innermost sidewalls of the respective pair of the features. Individual of the photoresist blocks have an opposing pair of second pattern edges in the cross-section that self-align laterally outward of the first pattern edges to the laterally innermost sidewalls of the features during the patterning.
An apparatus for vapor deposition of a sublimated source material as a thin film on a substrate is provided. The apparatus includes a receptacle configured to hold a source material and a distribution plate positioned above the receptacle. The distribution plate defines a pattern of passages therethrough. The apparatus also includes a conveyor configured to travel in a continuous loop such that its transfer surface passes above the distribution plate in a first direction to receive thereon sublimated source material passing through the passages of the distribution plate. The conveyor is also configured to travel in a second direction while carrying a substrate on its raised edges. A heating system heats the conveyor while it travels in the second direction to transfer the source material from the transfer surface to the substrate. A process is provided for vapor deposition of a sublimated source material to form thin film.
In a method of forming a semiconductor structure, a through-silicon-via (TSV) opening is formed in a substrate. A dielectric layer is formed to continuously extend over the substrate and into the TSV opening. At least one conductive material is formed over the dielectric layer and in the TSV opening. A portion of the at least one conductive material that is over the dielectric layer is removed to form a TSV structure in the substrate. A metallic line is formed in the dielectric layer. A portion of the substrate is removed, such that the TSV structure continuously extends through the substrate and the dielectric layer.
A method for producing a nanoporous layer comprises applying a plating base with adhesion strengthening onto a substrate, depositing a layer made of gold and silver onto the substrate, the composition being in the range of 20% to 40% gold and 80% to 60% silver, and selectively removing the silver in order to produce a nanoporous gold layer.
Methods and apparatuses for fabricating three-dimensional integrated circuits having through hole vias are provided. One aspect of the present invention is a method of gapfill for through hole vias for three-dimensional integrated circuits. The method comprises providing a semiconductor wafer having a plurality of holes for through hole vias and depositing a conformal metal layer to partially fill the holes to leave open voids. The method also includes purging the voids and cleaning the surface of the voids and using a dry deposition process to fill or close the voids. Another aspect of the present invention is an electronic device structure for a three-dimensional integrated circuit.
A semiconductor device includes: a semiconductor substrate including a first face and a second face on a side opposite to the first face; an external connection terminal formed on the first face of the semiconductor substrate; a first electrode formed on the first face of the semiconductor substrate and electrically connected to the external connection terminal; an electronic element formed on or above the second face of the semiconductor substrate; a second electrode electrically connected to the electronic element and having a top face and a rear face; a groove portion formed on the second face of the semiconductor substrate and having a bottom face including at least part of the rear face of the second electrode; and a conductive portion formed in the groove portion and electrically connected to the rear face of the second electrode.
Semiconductor devices are formed with a gate last, high-K/metal gate process with complete removal of the polysilicon dummy gate and with a gap having a low aspect ratio for the metal fill. Embodiments include forming a dummy gate electrode on a substrate, the dummy gate electrode having a nitride cap, forming spacers adjacent opposite sides of the dummy gate electrode forming a gate trench therebetween, dry etching the nitride cap, tapering the gate trench top corners; performing a selective dry etch on a portion of the dummy gate electrode, and wet etching the remainder of the dummy gate electrode.
A manufacturing method of a semiconductor device having metal gate includes providing a substrate having a first semiconductor device, a second semiconductor device, and a first insulating layer covering the first semiconductor device and the second semiconductor device formed thereon, performing an etching process to remove a portion of the first insulating layer to expose a portion of the first semiconductor device and the second semiconductor device, forming a second insulating layer covering the first semiconductor device and the second semiconductor device, performing a first planarization process to remove a portion of the second insulating layer, forming a first gate trench and a second gate trench respectively in the first semiconductor device and the second semiconductor device, and forming a first metal gate and a second metal gate respectively in the first gate trench and the second gate trench.
A method for fabricating a semiconductor device includes ion-implanting germanium into a monocrystalline silicon-containing substrate; forming a gate oxide layer over a surface of the monocrystalline silicon-containing substrate and forming, under the gate oxide layer, a germanium-rich region in which the germanium is concentrated, by performing a plasma oxidation process; and crystallizing the germanium-rich region by performing an annealing process.
A laser crystallization system and a method of manufacturing a display apparatus using the laser crystallization system are disclosed. In one embodiment, the system includes i) a mother substrate in which first, second, and third display regions and ii) a stage for supporting the mother substrate and moving in first and second directions perpendicular to each other. The embodiment also includes i) a first laser irradiation unit for irradiating a first laser beam having a width greater than or identical to a width of a side of one of the first, second, and third display regions in the first direction and ii) a second laser irradiation unit spaced apart from the first laser irradiation unit and irradiating a second laser beam having a width greater than or identical to the width of the one side in the first direction.
A semiconductor device and a method for fabricating the same are disclosed. The method for fabricating the semiconductor device includes forming an shallow trench isolation (STI) in a substrate, sequentially forming an oxide layer and a nitride layer over the substrate, patterning the nitride layer and the oxide layer to expose a portion of the substrate adjacent to the STI layer, forming a field oxide layer contacting the STI layer in the exposed portion of the substrate, removing the nitride layer, etching a portion of the patterned oxide layer to form a first gate oxide layer contacting the field oxide layer, forming a second gate oxide layer over the substrate, and forming a gate pattern over the field oxide layer, the first gate oxide layer, and the second gate oxide layer.
A manufacturing method for manufacturing a flexible non-volatile memory is provided. The manufacturing method comprises the steps outlined below. A flexible substrate is provided. A planarization layer is formed on the flexible substrate. A metal bottom electrode layer is deposited on the planarization layer. A mask is formed to define a plurality of patterns. An AZTO layer having a plurality of electrically independent AZTO cells is deposited on the metal bottom electrode layer corresponding to the patterns. A top electrode layer is deposited on the AZTO layer corresponding to the AZTO cells to form a plurality of non-volatile memory cells.
A semiconducting device with a multilayer sidewall spacer and method of forming are described. In one embodiment, the method includes providing a substrate containing a patterned structure on a surface of the substrate and depositing a first spacer layer over the patterned structure at a first substrate temperature, where the first spacer layer contains a first material. The method further includes depositing a second spacer layer over the patterned substrate at a second substrate temperature that is different from the first substrate temperature, where the first and second materials contain the same chemical elements, and the depositing steps are performed in any order. The first and second spacer layers are then etched to form the multilayer sidewall spacer on the patterned structure.
A semiconductor device includes a semiconductor substrate having a groove; a gate insulator; a first diffusion region; a gate electrode; a hydrogen-containing insulator; and a fluorine-containing insulator. The gate insulator covers inside surfaces of the groove. The first diffusion region is formed in the substrate. The first diffusion region has a first contact surface that contacts the gate insulator. The gate electrode is formed on the gate insulator and in the groove. The hydrogen-containing insulator is formed over the gate electrode and in the groove. The hydrogen-containing insulator is adjacent to the gate insulator. The fluorine-containing insulator is formed on the hydrogen-containing insulator and in the groove. The first contact surface includes Si—H bonds and Si—F bonds.
Presented herein is a field effect transistor device, optionally a lateral power transistor, and a method for forming the same, comprising providing a substrate, creating a doped buried layer, and creating a primary well in the substrate on the buried layer. A drift drain may be created in the primary well and a counter implant region implanted in the primary well and between the drift drain and the buried layer. The primary well may comprise a first and second implant region with the second implant region at a depth less than the first. The counter implant may be at a depth between the first and second implant regions. The primary well and counter implant region may comprise dopants of the same conductivity type, or both p+-type dopants. A gate may be formed over a portion of a drift drain.
An integrated circuit structure includes a semiconductor substrate, and a FinFET over the semiconductor substrate. The FinFET includes a semiconductor fin; a gate dielectric on a top surface and sidewalls of the semiconductor fin; a gate electrode on the gate dielectric; and a source/drain region at an end of the semiconductor fin. A first pair of shallow trench isolation (STI) regions includes portions directly underlying portions of the source/drain regions, wherein the first pair of STI regions is separated by, and adjoining a semiconductor strip. The first pair of STI regions further has first top surfaces. A second pair of STI regions comprises portions directly underlying the gate electrode, wherein the second pair of STI regions is separated from each other by, and adjoining, the semiconductor strip. The second pair of STI regions has second top surfaces higher than the first top surfaces.
A method for forming a metal gate includes providing a substrate, subsequently forming a dummy gate on the substrate, forming spacers on sidewalls of the dummy gate, forming a stop layer on the substrate, the dummy gate and spacers of the dummy gate, and forming a sacrificial dielectric layer on the dummy gate and the stop layer. The method further includes removing a part of the sacrificial dielectric layer and the stop layer until the dummy gate is exposed and, removing a residual sacrificial dielectric layer, depositing an interlayer dielectric layer on the dummy gate and the stop layer, polishing the interlayer dielectric layer until the dummy gate is exposed, removing the dummy gate to form a trench, and forming a metal gate in the trench. The interlayer dielectric layer is flat and substantially flush with the dummy gate, so that no recesses are formed thereon.
A semiconductor-on-insulator structure and a method of forming the silicon-on-insulator structure including an integrated graphene layer are disclosed. In an embodiment, the method comprises processing a silicon material to form a buried oxide layer within the silicon material, a silicon substrate below the buried oxide, and a silicon-on-insulator layer on the buried oxide. A graphene layer is transferred onto the silicon-on-insulator layer. Source and drain regions are formed in the silicon-on-insulator layer, and a gate is formed above the graphene. In one embodiment, the processing includes growing a respective oxide layer on each of first and second silicon sections, and joining these silicon sections together via the oxide layers to form the silicon material. The processing, in an embodiment, further includes removing a portion of the first silicon section, leaving a residual silicon layer on the bonded oxide, and the graphene layer is positioned on this residual silicon layer.
A method of modifying a wafer having a semiconductor disposed on an insulator is provided and includes forming first and second nanowire channels connected at each end to semiconductor pads at first and second wafer regions, respectively, with second nanowire channel sidewalls being misaligned relative to a crystallographic plane of the semiconductor more than first nanowire channel sidewalls and displacing the semiconductor toward an alignment condition between the sidewalls and the crystallographic plane such that thickness differences between the first and second nanowire channels reflect the greater misalignment of the second nanowire channel sidewalls.
When forming substrate diodes in SOI devices, superior diode characteristics may be preserved by providing an additional spacer element in the substrate opening and/or by using a superior contact patterning regime on the basis of a sacrificial fill material. In both cases, integrity of a metal silicide in the substrate diode may be preserved, thereby avoiding undue deviations from the desired ideal diode characteristics. In some illustrative embodiments, the superior diode characteristics may be achieved without requiring any additional lithography step.
A thin film transistor array panel includes a passivation layer formed on a plurality of end portions of a plurality of gate lines. A portion of the passivation layer has a porous structure formed between a connection portion of a flexible printed circuit substrate and a thin film transistor substrate such that when the flexible printed circuit substrate and the thin film transistor array panel are connected to each other, the passivation layer having a porous structure and which is formed at the connection portion therebetween connects the flexible printed circuit substrate with the thin film transistor array panel thereby minimizing an exposed area of the metal of the connection portion to improve a corrosion resistance thereof.
Disclosed herein is a novel charging controlled RRAM (Resistance Random Access Memory), and various methods of making such a charging controlled RRAM device. In one example, a device disclosed herein includes a first word line structure formed above a substrate, wherein the first word line structure includes a gate electrode and a nano-crystal containing layer of insulating material, a second word line structure formed above the substrate, wherein the second word line structure comprises a gate electrode and a nano-crystal containing layer of insulating material, a first implant region formed in the substrate proximate the first word line structure, wherein the first implant region defines a first bit line, and a second implant region formed in the substrate proximate the second word line structure, wherein the second implant region defines a second bit line.
A method for manufacturing a semiconductor device according to one embodiment of the present invention includes a step of covering a plurality of base plates in which respective semiconductor chips are mounted, by means of a sealing resin such that a plurality of base plates are spaced apart from each other, and a step of cutting the sealing resin between a plurality of base plates.
Embodiments of the present disclosure provide semiconductor packaging techniques that form a substrate using metal and insulating materials. The substrate includes a first surface that is bonded to a semiconductor device and a second surface that is bonded to a printed circuit board. The substrate is formed using several techniques that minimize the amount of mask levels used to form the substrate. For example, a metal substrate is patterned to form a three dimensional pattern on the surface. A dielectric material is deposited on the three dimensional pattern. Using several patterning and polishing embodiments described herein, the metal/dielectric substrate is patterned and polished to form a substantially flush surface that is bonded to the semiconductor device. In one embodiment, the top surface of the metal/dielectric substrate is patterned to expose the underlying metal substrate and the bottom surface of the metal substrate is polished to be substantially flush with the dielectric material.
Disclosed is an electronic component mounting line on which a substrate undergoes solder paste printing, electronic component placements, and then reflow, while being moved from upstream to downstream. The line includes: a substrate feeding machine; a printing machine for applying solder paste to a first placement area of the substrate; a first electronic component placement machine for placing a first electronic component on the first placement area; a second electronic component placement machine for dispensing a thermosetting resin onto a reinforcement position on a peripheral edge portion of a second placement area of the substrate, and for placing on the area the second electronic component having solder bumps; and a reflow machine for bonding the electronic components to the substrate, by heating and cooling the resultant. The second electronic component is placed after the resin is dispensed, such that a peripheral edge portion thereof comes in contact with the resin.
Micro-Electro-Mechanical System (MEMS) structures, methods of manufacture and design structures are disclosed. The method includes layering metal and insulator materials on a sacrificial material formed on a substrate. The method further includes masking the layered metal and insulator materials. The method further includes forming an opening in the masking which overlaps with the sacrificial material. The method further includes etching the layered metal and insulator materials in a single etching process to form the beam structure, such that edges of the layered metal and insulator material are aligned. The method further includes forming a cavity about the beam structure through a venting.
A pixel cell (100) and method for making the same for an active matrix display includes a pixel pad (110) and a thin film field effect transistor (106) which selectably couples a signal to activate/deactivate the pixel pad. A field shield (112) is formed on an insulating layer (102) and connected to the pixel pad through the insulating layer such that the field shield extends over at least a portion of the pixel pad. The field shield may extend over the thin film transistor and form a second gate (215) used to enhance the performance of the thin film transistor and the pixel cell.
A process to form a photodiode (PD) with the waveguide structure is disclosed. The PD processes thereby reduces a scattering of the parasitic resistance thereof. The process includes steps to form a PD mesa stripe, to bury the PD mesa stripe by the waveguide region, to etch the PD mesa stripe and the waveguide region to form the waveguide mesa stripe. In the etching, the lower contact layer plays a role of the etching stopper.
The semiconductor device includes a process monitoring pattern and an input/output (I/O) pad array area, the process monitoring pattern including a lower layer having a peripheral area surrounding a first internal area, the first internal area exposed by an internal open area, an external structure on the peripheral area of the lower layer, and a first dam disposed in the peripheral area spaced apart from the external structure by an external open area, the first dam defining the first internal area. The peripheral area overlaps the input/output (I/O) pad array area of the semiconductor device.
A fabricating method and a testing method of a semiconductor device and a mechanical integrity testing apparatus are provided. An object includes a wafer, an insulating layer, and a plurality of conductive posts is provided. A surface of the wafer has a plurality of first blind holes outside chip regions and a plurality of second blind holes inside the chip regions. The insulating layer is between the conductive posts and the walls of the first blind holes and between the conductive posts and the walls of the second blind holes. A mechanical integrity test is performed to test a binding strength between the insulating layer, the conductive posts, and the walls of the first blind holes. The conductive posts in the chip regions are electrically connected to an element after the conductive posts in the first blind holes are qualified in the mechanical integrity test.
An electronic package implemented in an electronic device may include a damaged connection that restricts electrical communication between components in the electronic package. For example, the damaged connection may restrict communication between a silicon unit, such as a processor die for example, and a printed circuit board. The damaged connection may be repaired without damaging other components in the electronic package by using a repair apparatus that includes a heating element and a cooling element. The heating element may be activated to transfer heat to the electronic package for reforming the damaged connection between components to enable effective electrical communication. The cooling element may be activated for cooling components in the electronic package to prevent damage due to the transfer of the heat from the heating element. The heating element and/or the cooling element may be activated in a predetermined pattern to facilitate the repair of the damaged connection.
The immunoassay method and kit are provided for the detection and/or the determination of zolpidem. The disclosure provides novel antibodies, derived from a novel immunogen, that are highly sensitive and bind to zolpidem and its main urinary metabolite [3-(2-N,N-dimethylamino-2-oxoethyl)-6-methylimidazo[1,2-a]pyridin-2-yl]benzoic acid, enabling an extension of the detection window of zolpidem in individuals who have abused the drug, or have been victim of its side-effects or its criminal misuse.
Disclosed is a method separation analysis of reducing sugars with enhanced sensitivity and an analytical apparatus therefore employing the post-column fluorescence detection/boric acid complex anion exchange method. The method disclosed is a method for analysis of reducing sugars using the post-column fluorescence detection/boric acid complex anion exchange method, and characterized in that a back-pressure generator is installed in the flow path between the heater, which is for causing a reaction by heating a sample separated by column chromatography with a basic amino acid, and a fluorometric detector.
The invention provides electrochemical biosensors for direct determination of percentage of glycated hemoglobin in blood samples without the need of a separated measurement of total hemoglobin content in blood samples. The invention provides methods for using the electrochemical biosensors.
The present invention provides microfluidic devices and methods for using the same. In particular, microfluidic devices of the present invention are useful in conducting a variety of assays and high throughput screening. Microfluidic devices of the present invention include elastomeric components and comprise a main flow channel; a plurality of branch flow channels; a plurality of control channels; and a plurality of valves. Preferably, each of the valves comprises one of the control channels and an elastomeric segment that is deflectable into or retractable from the main or branch flow channel upon which the valve operates in response to an actuation force applied to the control channel.
A closed loop automated method for staining of a biological sample is provided. The method comprises providing a biological sample, staining at least a portion of the biological sample by flowing in a reagent, monitoring one or more optical characteristics of the biological sample, and calculating a figure of merit based on at least one of the optical characteristics. An automated device for iterative staining of a biological sample is also provided.
This invention relates generally to methods and compositions for inducing stem cell or progenitor cell differentiation, and more particularly to methods and compositions for inducing differentiation of stem cells and/or progenitor cells into cells that function within the inner ear.
The present invention provides a method for producing customized pluripotent stem cells. Specifically, the present invention comprises following steps: extracting proteins from any of the dedifferentiated stem cells or induced pluripotent stem cells, the said dedifferentiated or pluripotent stem cells being prepared by any known method; introducing the protein extract into the adult somatic cells; and culturing the adult somatic cells to produce pluripotent stem cells having the same pluripotency as that of embryonic stem cells. In addition, pluripotent stem cells produced according to the present method and cell therapeutics comprising the same are provided. The method allows pluripotent stem cells to be produced very easily and at a significantly higher yield, compared to typical methods.
Described herein are recombinant RVF viruses comprising deletions in one or more viral virulence genes, such as NSs and NSm. The recombinant RVF viruses, generated using a plasmid-based reverse genetics system, can be used as vaccines to prevent infection of RVF virus in livestock and humans. As described herein, the recombinant RVF viruses grow to high titers, provide protective immunity following a single injection and allow for the differentiation between vaccinated animals and animals infected with wild-type RVF virus.
The invention relates to novel algae of the Coccomyxa genus, in particular the algae of a novel species called Coccomyxa actinabiotis, and to the use thereof for metal uptake from aqueous media, and in particular from radioactive media.
A process of growing a culture of cyanobacteria or algae using chitin or chitosan as a source of nitrogen for photosynthetic growth is described. This process can be used to remove pollutants from nitrogen-deficient natural waters or wastewaters. Biomass that results from photosynthetic growth on chitin can be used, either as whole cells or the isolated components of the cells, for a large variety of commercial purposes.
This invention provides novel enzyme compositions using newly identified and isolated C. lucknowense enzymes, including CBH Ib CBH IIb, EG II, EG VI, β-glucosidase, and xylanase II in conjunction with previously identified enzymes CBH Ia, CBH IIa (previously described as Endo 43), and EG V. These enzyme compositions demonstrate an extremely high ability to convert lignocellulosic biomass (e.g., Avicel, cotton, Douglas fir wood pretreated by organosolv) to glucose. CBH Ia and IIb, which both have a cellulose-binding module (CBM) displayed a pronounced synergism with three major endoglucanases (EG II, EG V, EG VI) from the same fungus in hydrolysis of cotton as well as a strong synergy with each other. The enzyme compositions are effective in hydrolysis of the lignocellulosic biomass.
Disclosed are variants of Humicola grisea Cel7A (CBH1.1), H. jecorina CBH1 variant or S. thermophilium CBH1, nucleic acids encoding the same and methods for producing the same. The variant cellulases have the amino acid sequence of a glycosyl hydrolase of family 7A wherein one or more amino acid residues are substituted.
A particle is disclosed. The particle comprising: (i) at least one inner core which comprises a solid matrix of nutrients for microorganism growth; (ii) an inner membrane being fabricated from a water-soluble polymer, the inner membrane surrounding the inner core and a population of dried microorganisms; and (iii) an outer porous membrane surrounding the inner membrane, the outer porous membrane being insoluble in water. Methods of generating same, propagating microorganisms within and uses of same are also disclosed.
Methods for improving the efficiency of 2,3-butanediol fermentations are disclosed. More specifically methods of increasing the butanediol productivity from the anaerobic fermentation of a substrate comprising carbon monoxide or carbon monoxide and hydrogen by one or more caboxydotrophic acetogenic bacteria are disclosed. The method includes supplying a hydrogen depleted substrate to increase butanediol productivity. The method includes producing butanediol at a volumetric productivity rate of at least 15 g/L/day.
The invention provides a non-naturally occurring microorganism having one or more gene disruptions, the one or more gene disruptions occurring in genes encoding an enzyme obligatory coupling 3-hydroxypropionic acid production to growth of the microorganism when the gene disruption reduces an activity of the enzyme, whereby the one or more gene disruptions confers stable growth-coupled production of 3-hydroxypropionic acid onto the non naturally occurring microorganism. The disruptions can be complete gene disruptions and the non-naturally occurring organisms can include a variety of prokaryotic or eukaryotic microorganisms. A method of producing a non-naturally occurring microorganism having stable growth-coupled production of 3-hydroxypropionic acid is further provided. The method includes: (a) identifying in silico a set of metabolic modifications requiring 3-hydroxypropionic acid production during exponential growth, and (b) genetically modifying a microorganism to contain the set of metabolic modifications requiring 3-hydroxypropionic acid production.
Disclosed is an apparatus and a method for producing lactic acid, wherein only lactic acid is selectively absorbed and separated from fermentation liquor using a lactic acid absorption resin and wherein a neutralizing agent is not used. The present invention does not include a neutralizing process and a process of converting lactate to lactic acid. The method comprises: adding and mixing a culture medium, microorganism and sugar in a fermenter; passing a fermentation liquor through a microorganism filtration unit to remove microorganisms; and selectively absorbing and separating lactic acid from filtered liquid using a lactic acid absorption resin. The apparatus includes a fermenter for lactic acid fermentation; a filtration unit for removing a microorganisms from the fermentation liquor; and a lactic acid absorption resin for selectively absorbing lactic acid from the filtered liquid.
The present invention relates to bacterial strains, capable of utilizing glycerol as a carbon source for the fermentative production of succinic acid, wherein said strains are genetically modified so that they comprise a deregulation of their endogenous pyruvate-formate-lyase enzyme activity, as well as to methods of producing organic acids, in particular succinic acid, by making use of such microorganism. The present invention also relates to the downstream processing of the produced organic acids by cation exchange chromatography.
The disclosure relates to methods, medical profiles, kits and apparatus for use in determining the risk that a pregnant individual has for developing pre-eclampsia based on amounts of certain biochemical markers in a biological sample from the individual and biophysical markers. The disclosure also relates to methods, medical profiles, kits and apparatus for use in determining the risk that a pregnant individual is carrying a fetus having a chromosomal abnormality based on amounts of certain biochemical markers in a biological sample from the individual and biophysical markers.
The present invention for the first time demonstrated that: (1) bone marrow-derived pluripotent tissue stem cells can be induced in peripheral blood by intravenously administering tissue extract prepared from isolated skin pieces; (2) the substance in the isolated skin pieces, which is responsible for mobilizing bone marrow-derived pluripotent tissue stem cells to peripheral blood, is HMGB1; and (3) HMGB1 with the activity of mobilizing bone marrow-derived pluripotent stem cells to peripheral blood can be easily purified from cultured cells.
Disclosed are agents and methods that may be used to diagnose and treat a variety of diseases associated with conformationally-altered proteins. The agents and methods may be used to identify and deliver drugs useful for treating diseases associated with conformationally-altered proteins.
The present invention relates to antagonists and agonists of the human bitter-taste receptors hTAS2R40, hTAS2R43, hTAS2R44, hTAS2R46, and hTAS2R47. The invention also relates to methods for identifying further molecules that suppress or enhance bitter taste transduction or bitter taste response mediated by hTAS2R40, hTAS2R43, hTAS2R44, hTAS2R46, and/or hTAS2R47 and uses thereof.
The present invention discloses methods for detecting the presence of a complex between a first reagent and a second reagent in solution. In particular, the invention provides methods for qualitative or quantitative detection of an analyte or its specific binding partner in complex biological samples. The invention further discloses algorithms using summary rate changes at selected wavelengths in the absorbance spectra of colloidal metal-labeled analytes or specific binding partners to identify intermolecular interactions between the analyte and its binding partner.
Methods for the determination of renal failure, especially chronic renal failure and acute kidney injury, by measurement of peptide or protein biomarkers are described. The methods are useful to determine stages of renal failure, especially the early stages such as stage 1, 2, and 3 of chronic renal failure and stages R and I of acute kidney injury. Furthermore there are described peptides and test kits used in the invention. The described methods are intended to replace or complement the measurement of creatinine and/or cystatin C and/or NGAL for diagnosis of renal failure.
The present invention relates to a method for detecting and identifying bacteria of the Salmonella genus by identification of the variable nucleotide sequences contained in the CRISPR loci of these bacteria, and also to diagnostic reagents, such as oligonucleotide primers and probes, for molecular typing and subtyping of these bacteria.
The invention provides methods and kits for ordering sequence information derived from one or more target polynucleotides. In one aspect, one or more tiers or levels of fragmentation and aliquoting are generated, after which sequence information is obtained from fragments in a final level or tier. Each fragment in such final tier is from a particular aliquot, which, in turn, is from a particular aliquot of a prior tier, and so on. For every fragment of an aliquot in the final tier, the aliquots from which it was derived at every prior tier is known, or can be discerned. Thus, identical sequences from overlapping fragments from different aliquots can be distinguished and grouped as being derived from the same or different fragments from prior tiers. When the fragments in the final tier are sequenced, overlapping sequence regions of fragments in different aliquots are used to register the fragments so that non-overlapping regions are ordered. In one aspect, this process is carried out in a hierarchical fashion until the one or more target polynucleotides are characterized, e.g. by their nucleic acid sequences, or by an ordering of sequence segments, or by an ordering of single nucleotide polymorphisms (SNPs), or the like.
Disclosed herein are methods of determining the sequence and/or positions of modified bases in a nucleic acid sample present in a circular molecule with a nucleic acid insert of known sequence comprising obtaining sequence data of at least two insert-sample units. In some embodiments, the methods comprise obtaining sequence data using circular pair-locked molecules. In some embodiments, the methods comprise calculating scores of sequences of the nucleic acid inserts by comparing the sequences to the known sequence of the nucleic acid insert, and accepting or rejecting repeats of the sequence of the nucleic acid sample according to the scores of one or both of the sequences of the inserts immediately upstream or downstream of the repeats of the sequence of the nucleic acid sample.
This document relates to methods and materials for detecting premalignant and malignant neoplasms. For example, methods and materials for determining whether or not a stool sample from a mammal contains nucleic acid markers or polypeptide markers of a neoplasm are provided.
The invention pertains to an isocyanate-modified photosensitive polyimide. The photosensitive polyimide of the invention possesses excellent heat resistance, chemical resistance and flexibility, and can be used in a liquid photo resist composition or dry film photo resist composition, or used in a solder resist, coverlay film, or printed wiring board.
The present invention provides a liquid developer including an insulating carrier liquid and toner particles containing a binder resin, the binder resin including a styrene-based thermoplastic elastomer and a styrene thermoplastic resin, and the toner particles being dispersed in the insulating carrier liquid.
A toner including at least one polyester resin serving as a binder resin, a colorant, a releasing agent, and a fixing aid, wherein the fixing aid includes a fatty acid amide-based compound, and the fatty acid amide-based compound is at least one of a fatty acid amide compound having a mono- or higher valent amide bond and a fatty acid amide-based compound having a mono- or higher valent amino group or a hydroxyl group.
The present disclosure provides toners and processes for making said toners. In embodiments, the toners include a fluorescent additive having a fluorescent agent. Toners are colorless when viewed under natural light but when exposed to UV light of a specific wavelength the toners are rendered bright green due to the presence of the fluorescent agent.
An intensity selective exposure photomask, also describes as a gradated photomask, is provided. The photomask includes a first region including a first array of sub-resolution features. The first region blocks a first percentage of the incident radiation. The photomask also includes a second region including a second array of sub-resolution features. The second region blocks a second percentage of the incident radiation different that the first percentage. Each of the features of the first and second array includes an opening disposed in an area of attenuating material.
Fuel cells for selectively reacting a feedstock material with or without generating electricity, and associated systems and methods are disclosed. A fuel cell system in accordance with a particular embodiment includes a first electrode positioned in a first region, a second electrode positioned in a second region, an electrolyte between the first and second regions, and an electrical circuit connected between the first and second electrodes. The system can further include a material collector in the first region to collect a non-gaseous reaction product from a non-electricity-generating reaction of the feedstock material in the first region. A controller receives an input corresponding to an instruction to control the rate of reaction product production and/or electrical current production. In response, the controller can partially or completely interrupt electron flow along the electrical circuit and/or change a rate at which reactants other than the feedstock material are supplied to the fuel cell.
The invention relates to a process for producing coated carbon particles, which comprises coating electrically conductive carbon particles with elemental doped or undoped silicon by chemical vapor deposition from at least one gaseous silane in an oxygen-free gas atmosphere in a reaction space, with the electrically conductive carbon particles being in continual motion during the vapor deposition, and also correspondingly coated carbon particles and their use in anode materials for lithium ion batteries.
An anode and a battery, which have a high capacity and can improve battery characteristics such as large current discharge characteristics and low temperature discharge characteristics are provided. An anode has an anode current collector and an anode active material layer provided on the anode current collector. The density of the anode active material layer is in the range from 1.5 g/cm3 to 1.8 g/cm3. Further, the anode active material layer contains a granulated graphite material which is obtained by granulating a flat graphite particle in nodular shape and mesocarbon microbeads. Thereby, the granulated graphite material is prevented from being destroyed, and diffusion path of lithium ions is secured.
The positive electrode of the lithium ion secondary battery includes active material particles containing a lithium composite oxide represented by: LivNi1-w-x-y-zCowCaxMgyMzO2 (0.85≦v≦1.25, 0
A rechargeable magnesium-ion battery includes a first electrode, a second electrode, and an electrolyte layer between the first electrode and the second electrode. The electrolyte includes a source of magnesium ions, such as a magnesium salt. The first electrode includes an active material, the active material including indium and tin, for example as a solid solution or intermetallic compound of indium and tin.
A battery pack having a holder case capable of preventing short-circuit between a cap plate and an electric terminal, instead of a washer, thereby increasing a coupling force between the holder case and a bare cell while minimizing the volume of the battery pack. The battery pack includes a bare cell including an electrode assembly, a can accommodating the electrode assembly, and a cap assembly for finishing an upper opening of the can, a holder case including a bottom portion covering one side surface of the bare cell, first and second support portions formed at first and second sides of the bottom portion, and an insulating portion fixed while covering a portion of a cap plate forming the cap assembly, a protection circuit module coupled to an upper portion of the holder case, and a cover case fixed to one side surface of the bare cell while covering the holder case and the protection circuit module.
A sealed battery with an electrode assembly and electrolyte enclosed in a battery case is provided, where a connection member can be attached to the battery case without requiring large space while avoiding increasing the length of the lead wire. The sealed battery includes: a battery case enclosing an electrode assembly and electrolyte, for serving as a terminal of one polarity of the electrode assembly; an external terminal provided on the battery case in such a way that it is electrically insulated from the battery case, for serving as a terminal of another polarity of the electrode assembly; and a sealant member for sealing a fill port for the electrolyte provided side by side with the external terminal on the battery case. A connection member to which a lead wire is to be connected is provided on the battery case to cover at least part of the sealant member.
Li/air battery cells are configurable to achieve very high energy density. The cells include a protected a lithium metal or alloy anode and an aqueous catholyte in a cathode compartment. In addition to the aqueous catholyte, components of the cathode compartment include an air cathode (e.g., oxygen electrode) and a variety of other possible elements.
A battery pack according to the present disclosure includes a first module array, a second module array, and a center channel. The first module array includes a first frame and a first cassette of battery modules disposed within the first frame. The first cassette of battery modules includes a first plurality of prismatic cells and a first plurality of module terminals. The second module array includes a second frame and a second cassette of battery modules disposed within the second frame. The second cassette of battery modules includes a second plurality of prismatic cells and a second plurality of module terminals. The center channel extends through a center of the battery pack and connects the first module array to the second module array. The first plurality of module terminals and the second plurality of module terminals are disposed adjacent to the center channel on opposite sides of the center channel.
A fuel cell vehicle includes under a floor of the vehicle: a fuel cell generating electric power through an electrochemical reaction between reaction gases; a fluid supply/discharge unit for the fuel cell; and a converter converting electric power from the fuel cell, the converter being contained in a center tunnel provided, at a center in a vehicle width direction, so as to be curved toward a cabin along a vehicle axis in a front-back direction, the fuel cell and the unit being arranged on a rear side of the vehicle relative to the converter and arranged in the vehicle width direction, wherein the converter is provided to be offset toward the fuel cell with respect to a centerline of the center tunnel along the vehicle axis and to be offset toward the unit with respect to a centerline of the fuel cell along the vehicle axis.
A bit patterned magnetic recording medium comprises a substrate having a surface, and a plurality of spaced apart magnetic elements on the surface, each element constituting a discrete magnetic domain or bit of the same structure and comprised of a stack of thin film layers including in order from the substrate surface: a seed layer; and a perpendicular magnetic recording layer in contact with a surface of the seed layer and comprising a Co 1-x-yPtxCry alloy material, where 0.05≦x≦0.35 and 0≦y≦0.15. The Co1-x-yPtxCry alloy material has a first order magnetic anisotropy constant K1 up to about 2×107 erg/cm3, a saturation magnetization Ms up to about 1200 emu/cm3, an anisotropy field HK=2K1/Ms up to about 35 kOe, a hexagonal (0001) crystal structure with c-axis perpendicular to a surface thereof, and an X-Ray diffraction (XRD) rocking curve with a full width at half maximum (FWHM) of ˜5° or less.
A magnetic recording medium includes a recording layer having a granular structure in which magnetic particles are dispersed within a non-magnetic base, and a non-magnetic material embedded in grooves of patterns formed on the recording layer. The magnetic particles have an inverted truncated cone shape with a diameter larger in an upper region of the recording layer than in a lower region of the recording layer.
The present invention relates to a novel heterocyclic derivative and an organic light emitting device using the compound, and the heterocyclic derivative may largely improve a life span, efficiency, electrochemical stability and thermal stability of the organic light emitting device.
A coating steel component with a pattern of an iron based matrix with crystalline particles metallurgically bound to the surface of a steel substrate for use as disc cutters or other components with one or more abrading surfaces that can experience significant abrasive wear, high point loads, and large shear stresses during use. The coated component contains a pattern of features in the shape of freckles or stripes that are laser formed and fused to the steel substrate. The features can display an inner core that is harder than the steel substrate but generally softer than the matrix surrounding the core, providing toughness and wear resistance to the features. The features result from processing an amorphous alloy where the resulting matrix can be amorphous, partially devitrified or fully devitrified.
Discontinuous diamond particulate containing metal matrix composites of high thermal conductivity and methods for producing these composites are provided. The manufacturing method includes producing a thin reaction formed and diffusion bonded functionally graded interactive SiC surface layer on diamond particles. The interactive surface converted SiC coated diamond particles are then disposed into a mold and between the particles and permitted to rapidly solidify under pressure. The surface conversion interactive SiC coating on the diamond particles achieves minimal interface thermal resistance with the metal matrix which translates into good mechanical strength and stiffness of the composites and facilitates near theoretical thermal conductivity levels to be attained in the composite. Secondary working of the diamond metal composite can be performed for producing thin sheet product.
The problem of the present invention is to provide, in high current-low energy type ion implantation apparatuses, a graphite member for a beam line inner member of an ion implantation apparatus, which graphite member can markedly reduce particles incorporated in a wafer surface. This problem can be solved by the graphite member of the present invention, which is a graphite member for a beam line inner member of an ion implantation apparatus, which member having a bulk density of not less than 1.80 Mg/m3 and an electric resistivity of not more than 9.5 μΩ·m. Preferably, the R value obtained by dividing D band intensity at 1370 cm−1 by G band intensity at 1570 cm−1 in the Raman spectrum of a spontaneous fracture surface of the graphite member is not more than 0.20.
A cooking release material includes a layer comprising fluoropolymer. The cooking release material has a major surface having nucleation structures in a density of at least 10 per square inch. The cooking release material can include a reinforcement material, the layer coated over the reinforcement material. The cooking release material can include a second layer forming the major surface.
A data disc, method and apparatus for forming the disc are disclosed. The data disc includes a first substrate structure bonded to a second substrate structure, with two curable material layers disposed on different sides of at least one of the two substrate structures, and at least one groove formed on a surface of one of the two curable material layers.
Disclosed herein is an electrical component including a substrate comprising an electroconductive filler in a first polymeric binder, and a coating layer adhered to at least a portion of the substrate surface, the coating layer comprising a nanostructured electroconductive particulate dispersed in a polymeric binder, such as an epoxy resin. A method of making the component also is disclosed, comprising obtaining a substrate containing an electroconductive filler in a polymeric binder, dispersing a nanostructured electroconductive particulate filler in a liquid that includes a solvent and/or a reactive diluent to form a dispersion, mixing the dispersion with a liquid resin to form a coating mixture, applying the coating mixture to the substrate, and crosslinking the applied coating mixture to form the coated substrate.
The present invention provides a heat-shrinkable polyester film with very good perforation-tear property and also very high productivity. A heat-shrinkable polyester film made of a polyester resin including ethylene terephthalate as a main constituent and containing 15% by mole or more of at least one monomer capable of forming an amorphous component in the whole components of the polyester resin, which exhibits specific heat shrinkage properties and specific mechanical properties after the heat shrinkage.
A method for packing a solid organometallic compound into a container for packing the compound is provided, wherein the solid organometallic compound can be stably supplied to a vapor phase epitaxial growth apparatus such as an MOCVD apparatus at a constant concentration for a long period of time. In the method for packing a solid organometallic compound into a container for packing, the compound is composed of grains having a grain size of 8 mm or less and the grains of the compound essentially comprise grains having a grain size of 2.5 to 6 mm.
A plasma nozzle supplies a plasmatized electric discharge gas, and a first supply section in a flow regulator which is interposed between the plasma nozzle and a base member supplies a first liquid-phase raw material. A second supply section which is separate from the first supply section supplies a second liquid-phase raw material. The first liquid-phase raw material which is activated by a plasmatized electric discharge gas and deposited on the base member while in a liquid phase is caused to interact with the second liquid-phase raw material which is activated by the plasmatized electric discharge gas, and solidified into a film on the base member.
The invention relates to a method for the plasma treatment of glass surfaces, the metal component, in particular the alkali and/or alkaline-earth metal component in the superficial region of the substrate being reduced by a plasma treatment of a substrate.
An object of the present invention is to provide a barrier film having the extremely high barrier property and the better transparency, a method for manufacturing the same, and a laminated material, a container for wrapping and an image displaying medium using the barrier film. According to the present invention, there is provided a barrier film provided with a barrier layer on at least one surface of a substrate film, wherein the barrier layer is a silicon oxide film having an atomic ratio in a range of Si:O:C=100:160 to 190:30 to 50, a peak position of infrared-ray absorption due to Si—O—Si stretching vibration between 1030 to 1060 cm−1, a film density in a range of 2.5 to 2.7 g/cm3, and a distance between grains of 30 nm or shorter. Still more, there is provided a barrier film provided with a barrier layer on at least one surface of a substrate film, wherein the barrier layer is a silicon oxi-nitride film having an atomic ratio in a range of Si:O:N:C=100:80 to 110:40 to 70:30 to 50, a maximum peak of infrared-ray absorption due to Si—O stretching vibration and Si—N stretching vibration in a range of 900 to 1000 cm−1, a film density in a range of 2.7 to 3.0 g/cm3, and a distance between grains of 30 nm or shorter.
A permanent magnet is provided which has formed a Dy, Tb film on a surface of an iron-boron-rare earth sintered magnet of a predetermined shape, with diffusion thereof into grain boundary phases, having a higher coercive force. The method of manufacturing a permanent magnet includes a film-forming step of evaporating metal evaporating material containing at least one of Dy and Tb and adhering evaporated metal atoms to a surface of the iron-boron-rare earth sintered magnet, and a diffusing step of performing heat treatment to diffuse metal atoms adhered to the surface into grain boundary phases of the sintered magnet. The metal evaporating material contains at least one of Nd and Pr.
A soy protein product having a protein content of at least about 60 wt % (N×6.25) d.b., preferably an isolate having a protein content of at least about 90 wt % (N×6.25) d.b., is formed by extracting a soy protein source with water to form an aqueous protein solution having a pH of about 1.5 to about 11, preferably about 5 to about 7, and separating the resulting aqueous protein solution from residual soy protein source. The protein concentration of the aqueous protein solution is increased to about 50 to about 400 g/L while the ionic strength is maintained substantially constant by using a selective membrane technique. The resulting concentrated protein solution is optionally diafiltered and a calcium salt, preferably calcium chloride, is added to the concentrated and optionally diafiltered protein solution to a conductivity of 5 to about 30 mS. Precipitate formed as a result of the calcium salt addition is removed and the resulting clarified retentate is diluted into about 2 to about 20 volumes of water prior to acidification to a pH of about 1.5 to about 4.4 to produce an acidified clear protein solution. The acidified clear protein solution is then concentrated and optionally diafiltered and optionally dried. Variations of this procedure can be used to produce a soy protein product which is soluble, transparent and heat stable in acidic aqueous environments.
The invention relates to dietary fiber for human and animal nutrition and more particularly to roughage consisting of a fiber formulation containing lignocellulose. Said formulation contains a fraction of a fibrous substance that is fermentable in the digestive tract and a fraction of a fibrous substance that is poorly or non-fermentable in the digestive tract.
A method for peeling tomatoes is disclosed, the method comprises the steps of providing a tomato having a peel and an underlying fruit; washing the tomato with a solution to break down naringenin chalcone in the peel; treating the tomato peel with a caustic solution including OH″ molecules to separate the peel from the fruit; introducing pH adjusted water to the OH″-treated tomato; and peeling the tomato to remove the peel from the underlying fruit.
The present invention relates to a product for topical administration in particular, a product for use in the treatment of eczema and psoriasis and other related conditions.
The present invention is directed to novel pharmaceutically acceptable polymeric compositions suitable for injection molding of single or multi-component pharmaceutical dosage forms comprising a plurality of drug substance containing sub-units, being capsule compartments and/or solid sub-units comprising a solid matrix of a polymer which contains a drug substance, the sub-units being connected together in the assembled dosage form by a weld between parts of the assembled dosage form.
Disclosed herein are an anti-bacterial, anti-fungal and anti-viral composition with excellent sterilizing power, deodorization and adhesion activity, an application thereof, and a method for preparing the same. The composition with sterilizing activity against bacteria, fungus and virus comprises colloidal silver particles in an amount of from 11 wt % to 15 wt %, titanium dioxide nanoparticles in an amount of from 18 wt % to 25 wt %, a dispersion stabilizer in an amount of from 0.01 wt % to 10 wt %, a binder in an amount of from 0.1 wt % to 4 wt %, and a balance of water in an amount required to form 100 wt %.
The invention relates to a solid composition in the form of a water-in-oil emulsion comprising, in a cosmetically acceptable carrier: (i) at least one discontinuous aqueous phase, (ii) at least one fatty phase comprising at least one particular wax, (iii) at least one silicone emulsifier selected in the group consisting in alkyldimethicone copolyols of particular formula (I) and dimethicone copolyols of particular formula (II) and mixtures there of (iv) and at least one antiperspirant active agent and/or one deodorant active agent. The invention relates to a method for treating body odors associated with human perspiration, and in particular body odors which are especially underarm odors. The invention relates to a method for preparing a solid composition in the form of a water-in-oil emulsion as defined above.
The embodiment of invention provides a method for producing γ-aminobutyric acid, including the steps of providing a medium including Saccharomyces cerevisiae, adding an extract of Rhinacanthus nasutus into the medium and fermentating Saccharomyces cerevisiae in the medium added with the extract of Rhinacanthus nasutus to produce γ-aminobutyric acid.
The present invention relates to use of a new cell penetrating peptides (CPP) and in particular to the region 32-51 of protein Limulus antilipopolisacárido (LALF) and its analogous. This invention refers to compositions containing these peptides associated to biomolecules with therapeutics properties. This invention consist of compositions comprise the covalent fusion of biomolecules, between this human papillomavirus antigens (HPV) to these CPP for induce a potent immune cellular responses against HPV and HPV protein antigen-exhibiting cells including HPV-associated tumors. The referred compositions are applicable in the pharmaceutical industry as vaccine for therapeutic use in human.
The present invention relates to a method of coating a spore with one or more therapeutic agents. The present invention also relates to a coated spore obtained by the method of the present invention and the use of the coated spore as a vaccine.
Broad neutralizing antibodies directed to epitopes of Human Immunodeficiency Virus, or HIV, especially the preparation and use of highly neutralizing antibodies directed to HIV gp120 envelope protein, in the vaccination and treatment of HIV-infected patients.
The present invention relates to the field of prognosis and/or diagnosis of a proliferative disease in a patient. More particularly, the invention relates to antibodies capable of binding to the human cMet receptor, as well as the amino acid and nucleic acid sequences coding for these antibodies. The invention likewise comprises the use of said antibodies, and corresponding processes, for detecting and diagnosing pathological hyperproliterative oncogenic disorders associated with expression of cMet. In certain embodiments, the disorders are oncogenic disorders associated with increased expression of cMet polypeptide relative to normal or any other pathology connected with the overexpression of cMet. The invention finally comprises products and/or compositions or kits comprising at least such antibodies for the prognosis or diagnostic of certain cancers.
An isolated, pure homogeneous population of mammalian astrocyte restricted precursor cells which is CD44 immunoreactive and which generate astrocytes but not oligodendrocytes is provided. Methods for isolating and using these mammalian astrocyte restricted precursor cells are also provided.
The present invention concerns the use of a sphingoid-polyalkylamine conjugate as a capturing agent of biologically active molecules, such as antigens. In a particular embodiment, the spinogid-polyalkylamines are used for the preparation of pharmaceutical composition for modulating the immune response of a subject. Other aspects of the invention concern methods for modulating the immune response of a subject by the use of the conjugate, complexes comprising, the sphingoid-polyalkylamine conjugate in combination with a biologically active molecule capable of modulating an immune response of a subject, compositions comprising the conjugate as well as kits making use of said conjugate. A preferred conjugate according to the invention is N palmitoyl D-erythro sphingosyl 1 carbamoyl spermine.
A pharmaceutically acceptable agent able to acidify the cell cytoplasm, for the manufacture of a pharmaceutical composition useful for causing immunosuppression in a person or animal, where an effective amount of the agent is administered in an essentially non-dissociated form to the person or animal, and where the agent is admixed with a carrier to adjust the pH of the composition to the pH range 6.1 to 7.0. A pharmaceutical composition is also disclosed.
Aqueous liquid compositions are provided, which comprise nonionic polymers, such as polyvinyl alcohol (PVA), polyvinylpyrrolidone (PVP), or combinations thereof, and which are free of or substantially free of salt-forming groups. The aqueous liquids form solid, flexible films after direct application to skin, and the films may be peeled from the skin to remove adhered keratotic plugs from pores of the skin. The compositions are easily applied to skin, without dripping, with fingers, a brush, or other applicators.
A bruise amelioration composition that can be applied for one hour to an affected site, such as a bruise, contusion or blister, in the form of a gel, liquid or adhesive bandage. The composition includes at least 40% by weight of glycerin and at least 2% by weight of primrose oil. Preferably, the composition includes a fragrance, such as peach oil and marjoram and 1% to 10% by weight of vitamins A, C, D, E and K.
Disclosed are novel ultraviolet-absorbing compounds produced by two embodiments. By a first embodiment, the ultraviolet-absorbing compound is derived from at a first reactant being a UV absorber comprising a carbon-nitrogen triple bond and a second reactant having amine functionality. By a second embodiment, the ultraviolet-absorbing compound is derived from a first reactant being a UV absorber comprising amine functionality and a second reactant comprising a carbon-nitrogen triple bond. In both embodiments of the invention, the second reactant may be a small molecule, a monomer, a macromolecule, a biomolecule, or a polymer.The invention's ultraviolet-absorbing compounds are directed toward formulations and applications that serve to protect against UV radiation in any art. Exemplary uses of the ultraviolet-absorbing compounds are in adhesive, agriculture, cleaning/polishing, coating, containers, encapsulation, fragrances, imaging, hoses/tubing, household/industrial/institutional, medical, membrane, molded parts, oilfield, packaging, personal care, personal protective equipment, pharmaceutical, printing, veterinary, and wood-care applications. Highly preferred uses of the ultraviolet-absorbing compounds are in personal care and performance chemicals. wherein R═
The invention provides a process of producing hydrogen that involves aqueous phase reforming of an oxygenated hydrocarbon, preferably one obtained from a renewable source such as biomass. The reaction is carried out in the absence of electrolytes and in the presence of a dispersed particulate heterogeneous catalyst. The reaction is carried out under pressure and relatively low temperature in a stirred tank reactor, preferably a continuous stirred tank reactor.
This invention relates to a process for the phase-controlled synthesis of ternary and quaternary mixed-metal sulfide nanoparticles by reacting soft metal ions with hard metal ions in a high-boiling organic solvent in the presence of a complexing and activating ligands to control the reactivity of the metal ions. Ternary and quaternary mixed metal sulfides nanoparticles of copper, sulfur, and iron, aluminum, tin, and silicon are preferred. This invention also relates to the phase controlled preparation of polymorphs of bornite nanoparticles and the phase controlled preparation of stabilized α- and γ-chalconite nanoparticles.
The invention includes a process for reducing the amount of NOx discharged to atmosphere from a FCC unit, having a regenerator and a means for collecting and supporting catalyst particles. The process comprises adding a catalyst to the regenerator flue gas prior to entering the collecting means and precipitating the catalyst in the collecting means to form a catalyst bed. Ammonia or ammonia precursor is added to the flue gas prior to and/or within the collecting means. The flue gas NOx is reacted with the ammonia or ammonia precursor at 200° C. to 800° C. in the presence of the catalyst bed to reduce the NOx amount, and the flue gas containing a reduced amount of NOx is discharged to atmosphere. The catalyst is one or more supported transition or lanthanide metal catalysts. The process can also be utilized in any combustion process.
The present invention relates to a single crystal silicon ingot or wafer wherein the lateral incorporation effect of intrinsic point defects has been manipulated such that the formation of agglomerated intrinsic point defects and/or oxygen precipitate clusters in a ring extending radially inward from about the lateral surface of the ingot segment is limited.