US09647854B1
Some embodiments provide a hosting system for provisioning and managing servers (e.g., virtual servers, dedicated servers). In some embodiments, the hosting system receives a configuration for one or more servers for a particular entity (e.g., customer, user). The hosting system then identifies a grid identity and a set of virtual local area network (VLAN) identities for the particular entity. The hosting system then deploys the set of servers on one or more of the hardware nodes using the grid identity and the set of VLAN identities. In some embodiments, the set of VLAN identities includes a first VLAN identity for a private network and a second VLAN identity for a public network.
US09647852B2
Embodiments of systems and methods for selective single-ended transmission for high speed serial links. In an embodiment, a method includes training a data link in a differential mode. The method may also include training the data link in a single-ended mode. Additionally, the method may include dynamically operating the data link in the single-ended mode or the differential mode according to a monitored performance characteristic of the data link.
US09647850B2
This disclosure describes systems, methods, and computer program products for identifying a presence of a plurality of mobile devices at a geographic location; determining an entertainment option to be played at the geographic location based on the identified plurality of mobile devices; and based on the determination, selecting an entertainment option to be played at the geographic location.
US09647847B2
Various techniques are described to protect secrets held by closed computing devices. In an ecosystem where devices operate and are offered a wide range of services from a service provider, the service provider may want to prevent users from sharing services between devices. In order to guarantee that services are not shared between devices, each device can be manufactured with a different set of secrets such as per device identifiers. Unscrupulous individuals may try to gain access to the secrets and transfer secrets from one device to another. In order to prevent this type of attack, each closed computing system can be manufactured to include a protected memory location that is tied to the device.
US09647845B2
Disclosed is a key download and management method, comprising: a device end authenticating the validity of an RKS server by checking the digital signature of a public key of an operating certificate of the RKS server; the RKS server generating an authentication token (AT); after being encrypted with a device identity authentication public key of the device end, returning a ciphertext to the device end; after being decrypted by the device end with a device identity authentication private key thereof, encrypting the ciphertext with the public key of the operating certificate and then returning same to a key server; after being decrypted with a private key of the operating certificate, the key server contrasting whether the decrypted authentication token (AT) is the same as the generated authentication token (AT); and if so, indicating that the POS terminal of a device is valid, thereby realizing bidirectional identity authentication.
US09647839B2
The present invention seeks to meet these needs by providing a password generation and retrieval system (PGRS) that generates encrypted passwords with a computer program using an algorithm that combines a website information such as a domain name or email address, the user's own text input or phrase, and the user's own numeric value or pin number. The present invention does not involve the maintenance of a database of any kind. As such, there is no login required and no records are kept of the visitors, their input or the passwords generated. Preferably, the process is carried out using a website, browser extension, smart phone application and/or a stand-alone executable program.
US09647835B2
An Internet infrastructure delivery platform (e.g., operated by a service provider) provides an RSA proxy “service” as an enhancement to the SSL protocol that off-loads the decryption of the encrypted pre-master secret (ePMS) to an external server. Using this service, instead of decrypting the ePMS “locally,” the SSL server proxies (forwards) the ePMS to an RSA proxy server component and receives, in response, the decrypted pre-master secret. In this manner, the decryption key does not need to be stored in association with the SSL server.
US09647832B2
Systems and methods are provided for protecting identity in an authenticated data transmission. For example, a contactless transaction between a portable user device and an access device may be conducted without exposing the portable user device's public key in cleartext. In one embodiment, an access device may send an access device public key to a portable user device. The user device may return a blinded user device public key and encrypted user device data. The access device may determine a shared secret using the blinded user device public key and an access device private key. The access device may then decrypt the encrypted user device data using the shared secret.
US09647829B1
A transmit (TX) signal path circuit in a multiple-input, multiple-output (MIMO) transceiver responsive to a digital front end (DFE) for generating receive (RX) path phase alignment signals is disclosed. A digital up-conversion block uses a first numerically-controlled oscillator (NCO) for generating digital intermediate frequency (IF) signals for ordinary TX signal generation, and a different, second NCO for generating digital IF signals for RX phase alignment signal generation. An RF up-conversion block uses a TX local oscillator (LO) for generating analog RF signals for ordinary TX signal generation, and a different feedback (FB) LO for generating analog RF signals for RX phase alignment signal generation. Thus, phase alignment of the circuitry used for ordinary TX signal generation is left undisturbed by RX phase alignment signal generation.
US09647826B2
A system may include a first device, a second device, a third device, and a serial link between the second device and the third device. The first device may be configured to deliver to the second device an information stream having a transmission fault tolerance associated with a transmission by the second device to the third device over the serial link. A related method may include, during the transmission over the serial link, phases for synchronization between the second and third devices, and during each synchronization phase, the first device may continue to deliver the information stream to the second device.
US09647819B2
The present invention addresses a method, including configuring a remote device (UE) for measurements of at least one carrier in a first frequency band which is different from a second frequency band which is licensed used for communication by said remote device, receiving a measurement report from said remote device, and deciding on the usability of the at least one measured carrier in said first frequency band for communication by said remote device. Also, a method is proposed, including measuring at least one carrier in a first frequency band which is different from a second frequency band which is licensed used for communication by a remote device, and sending, to a network transceiver device, a measurement report of the measurements. Likewise, corresponding computer program products as well as correspondingly configured devices are addressed.
US09647810B2
A base station is provided. The base station comprises a downlink transmit path comprising circuitry configured to transmit a plurality of reference signals in two or more subframes. Each subframe comprises one or more resource blocks. Each resource block comprises S OFDM symbols. Each of the S OFDM symbols comprises N subcarriers, and each subcarrier of each OFDM symbol comprises a resource element. The base station further comprises a reference signal allocator configured to allocate a first group of the plurality of reference signals to selected resource elements of a first subframe according to a reference signal pattern. The first group of the plurality of reference signals is for a first group of antenna ports. The reference signal allocator also configured to allocate a second group of the plurality of reference signals to selected resource elements of a second subframe according to the same reference signal pattern. The second group of the plurality of reference signals is for a second group of antenna ports different from the first group of antenna ports.
US09647804B2
Embodiments of block acknowledgements request apparatus, systems, and methods are generally described herein. Other embodiments may be described and claimed. An aggregated block of a plurality of data frames is received from an originator transmission, with each data frame including a medium access control (MAC) header. An acknowledgement policy that is solicited by the originator is identified in a quality of service field in at least one of the MAC headers of the received transmission. A single block acknowledgement is transmitted to the originator acknowledging receipt of one or more of the plurality of data frames in the aggregated block of data frames.
US09647799B2
The present invention is directed to data communication systems and methods. More specifically, embodiments of the present invention provide techniques for transceivers to quickly identify FEC mode used in data communication. A transmitting transceiver embeds FEC mode information in a designated field of an alignment marker. The receiving transceiver acknowledges the receipt of the FEC mode information and processes the incoming data accordingly. There are other embodiments as well.
US09647796B2
A method for channel-coding information bits using a code generation matrix including 32 rows and A columns corresponding to length of the information bits includes, channel-coding the information bits having “A” length using basis sequences having 32-bit length corresponding to columns of the code generation matrix, and outputting the channel-coded result as an output sequence. If “A” is higher than 10, the code generation matrix is generated when (A-10) additional basis sequences were added as column-directional sequences to a first or second matrix. The first matrix is a TFCI code generation matrix composed of 32 rows and 10 columns used for TFCI coding. The second matrix is made when at least one of an inter-row location or an inter-column location of the first matrix was changed. The additional basis sequences satisfy a value 10 of a minimum Hamming distance.
US09647788B2
Techniques for multiplexing and demultiplexing signals for optical transport networks are presented. A network component comprises a multiplexer component that multiplexes a plurality of signals having a first signal format to produce a multiplexed signal in accordance with a second signal format, while maintaining error correction code (ECC) of such signals and without decoding such signals and associated ECC. The multiplexer component interleaves the plurality of signals with stuffing and adds overhead without generating new ECC. A second network component receives the multiplexed signal as part of a frame in accordance with the second signal format. A demultiplexer component of the second network component demultiplexes the multiplexed signal using the original ECC associated with the plurality of signals, wherein the second network element removes and filters the stuffing from the multiplexed signal and produces a plurality of demultiplexed signals as an output, in accordance with the first signal format.
US09647787B1
Embodiments of the disclosure relate to activating an interference signal rejection filter path based on detection of an interference signal in a wireless distribution system (WDS). In this regard, in one aspect, a filter path selection circuit is configured to activate an interference rejection filter path configured to suppress a predefined interference signal when the predefined interference signal is detected in a received radio frequency (RF) signal. In another aspect, the filter path selection circuit is configured to detect the predefined interference signal by comparing a measured power level of the predefined interference signal against a predefined power threshold. By activating the interference rejection filter path to suppress the predefined interference signal based on detection of the predefined interference signal, it is possible to dynamically respond to the predefined interference signal that may randomly appear in the WDS, thus providing an enhanced overall RF performance in the WDS.
US09647783B2
The invention relates to an automatic checking method for clock synchronization, comprising the following steps: (1) regularly acquiring clock signals sent by a Beidou signal source, a GPS signal source and an SNTP signal source; (2) performing subtraction to the clock signals of the Beidou signal source and the GPS signal source and evaluating the absolute value of the difference; at the same time, performing subtraction to the clock signals of the Beidou signal source and the SNTP signal source and then evaluating the absolute value of the difference and finally judging the results of the two differences; and (3) constantly repeating steps (1) and (2). The operations in the present invention can efficiently avoid the problems in the existing technology, guarantee the consistency and accuracy of system time, and guarantee the stable and safe operation of the system and the normal operation of other power grid businesses.
US09647780B2
Embodiments provide an apparatus, a system, and a method. A method individualizing a presentation of content includes receiving data indicative of a physical orientation of a person relative to a display operable to present the content. The method also includes selecting a display parameter of the presented content in response to the received data indicative of a physical orientation of a person. The method further includes employing the selected display parameter in presenting the content. The method may include generating the data indicative of a physical orientation of a person relative to a display operable to present the content. The method may include receiving information indicative of a change in the physical orientation of the person proximate to the display; and changing the display parameter of the presented content in response to the received information indicative of a change in the physical orientation of the person proximate to the display.
US09647778B2
An approach is provided for enabling advertisers to correlate a communication session with an amount of consumption of the advertisement by a viewer. A correlation platform tracks an amount of consumption of an advertisement presented via a set-top box associated with a user. The amount of consumption of the advertisement is then correlated to a communication session initiated by the user in response to the presentation of the advertisement.
US09647775B1
A power amplification module includes a first input terminal arranged to receive a first transmission signal in a first frequency band, a second input terminal arranged to receive a second transmission signal in a second frequency band higher than the first frequency band, a first amplification circuit that amplifies the first transmission signal, a second amplification circuit that amplifies the second transmission signal, a first filter circuit located between the first input terminal and the first amplification circuit, and a second filter circuit located between the second input terminal and the second amplification circuit. The first filter circuit is a low-pass filter that allows the first frequency band to pass therethrough and that attenuates a harmonic of the first transmission signal and the second transmission signal. The second filter circuit is a high-pass filter that allows the second frequency band to pass therethrough and that attenuates the first transmission signal.
US09647773B2
A system for powering a network element of a fiber optic wide area network is disclosed. When communication data is transferred between a central office (CO) and a subscriber terminal using a network element to convert optical to electrical (O-E) and electrical to optical (E-O) signals between a fiber from the central office and twisted wire pair, coaxial cable or Ethernet cable transmission lines from the subscriber terminal, techniques related to local powering of a network element or drop site by the subscriber terminal or subscriber premise remote powering device are provided. Certain advantages and/or benefits are achieved using the present invention, such as freedom from any requirement for additional meter installations or meter connection charges and does not require a separate power network.
US09647771B2
Systems and methods for wavelength optimization for underwater optical communication can include a plurality of n lasers having different wavelengths λi for i=1 to n, a beam splitter and a corner retro-reflector. The plurality of n lasers can simultaneously illuminate the beam splitter along a coincident axis. The plurality of n lasers can be selectively blocked so that only one laser wavelength λi at a time impinges on the beam splitter. A portion passes through the beam splitter to establish a reference signal, while the remainder is reflected off the corner retro-reflector. A portion of return illumination passes through the beam splitter to establish a return signal. The process can be repeated for each of n lasers for i=1 to n. The λi wavelength where the normalized signal-to-noise differential between the reference signal and return signal is the minimum can be the optimum communication wavelength.
US09647770B1
A photonic oscillator can produce a multifrequency optical signal having a spectrum that includes regularly spaced spectral lines. A photodetector can convert the multifrequency optical signal to a multifrequency electrical signal having a spectrum that includes the regularly spaced spectral lines. A bandpass filter can attenuate all but one spectral line of the spectrum of the multifrequency electrical signal to form a single-frequency electrical signal having leading/trailing edges that have the same precision as the photonic oscillator. A continuous-wave laser can lock to the multifrequency optical signal and produce a continuous-wave optical signal at a wavelength precisely locked to the photonic oscillator. A data encoder/decoder can modulate/demodulate a data stream onto/from the continuous-wave optical signal at a data rate of the single-frequency electrical signal. The modulated optical signal can be clocked with the leading/trailing edges of the single-frequency electrical signal.
US09647766B2
A method of communication through a network, executed by a communication apparatus that performs transmission by selecting a transmission mode, the method includes determining whether to transmit the data in either a first mode or a second mode when transmitting data; transmitting the data using a predetermined number of kinds of optical signals having different levels in light intensity when determined to transmit in the first mode; and transmitting the data using a fewer number of kinds of optical signals having different levels in light intensity than the predetermined number when determined to transmit in the second mode.
US09647764B2
A distortion compensation circuit compensates for the distortions generated by the dispersion-slope of an optical component and the frequency chirp of an optical transmitter. The dispersion compensation circuitry can be utilized in the optical transmitter, the optical receiver and/or at some intermediate point in a fiber-optic network. One embodiment of the compensation circuit utilizes a primary electrical signal path that receives at least a portion of the input signal and a delay line; and a secondary signal path in parallel to the primary path that receives at least a portion of the input signal and including: an amplifier with an electrical current gain that is proportional to the dispersion-slope of the optical component, an optional RF attenuator, an optional delay line, a “squarer” circuit, and a “differentiator” circuit. Another embodiment of the disclosure performs simultaneous, and independent, compensation of second-order distortions generated by both the dispersion-slope of a first optical component and the dispersion of a second optical component. Other embodiments of the disclosure perform adaptive predistortion for compensation of distortions generated by the dispersion-slope of a first optical component and the dispersion of a second optical component to maintain optimum compensation even if the dispersion properties of the optical components change with time.
US09647762B2
Aspects of the present invention include an optical transceiver for providing transmission and reception of optical signals. The optical transceiver includes a carrier having two opposing surfaces and one or more openings extending from a first of the two opposing surfaces to a second of the two opposing surfaces. The optical transceiver includes a laser driver chip coupled to the first surface. The optical transceiver includes a vertical cavity surface emitting laser (VCSEL) array chip coupled to the first surface. The optical transceiver includes a photodetector array chip coupled to the first surface. The optical transceiver includes a receiver amplifier chip coupled to the first surface. The optical transceiver includes an optical coupling element coupled to the second surface. The VCSEL array chip and the photodetector array chip are disposed such that optical signals can pass through the one or more openings in the carrier.
US09647761B1
Flexible rate communication signalling apparatus and methods are disclosed. A determination is made as to a set of one or more of first frames and second frames which would provide a desired communication rate. The first frames and the second frames have a common frame structure but different associated rates. The determined set of one or more of the first frames and the second frames, including received client signals, is generated.
US09647759B2
A method for communication includes receiving in a first communication interface input frames, which include data symbols that were derived by encoding respective characters, and further include one or more synchronization symbols having no corresponding characters. The characters from the data symbols are recovered, and the recovered characters are transmitted to a second communication interface by mapping the characters into communication frames and discarding the synchronization symbols. The characters are extracted from the communication frames in the second communication interface by synchronizing to the input frames independently of the synchronization symbols. The input frames are reconstructed in the second communication interface, including the data symbols and the synchronization symbols, by re-encoding the extracted characters.
US09647744B2
Method and arrangement in a user equipment for adjusting signals transmitted in uplink to a network node, based on a feedback value received from the network node. The method comprises transmitting a signal, to be received by the network node. Further, the method comprises receiving a feedback signal from the network node, providing feedback on the transmitted signal. In addition, the method comprises obtaining a value of a time delay of the received feedback signal. Furthermore, the method comprises adjusting signals transmitted in the uplink according to the received feedback signal, wherein compensation is made for the obtained time delay value of the received feedback signal.
US09647743B2
A method and apparatus may be used in Very High Throughput (VHT) Wireless Local Area Network (WLAN) management actions. Management action frames such as VHT Action frames may be used to implement VHT features in WLANs. Extensions to 802.11 Action frames may be used to support VHT features and provide backward compatibility. VHT Management Actions may be supported with VHT Action frames and VHT extensions to 802.11 Action frames in various categories such as Direct Link Setup (DLS), Public, Spectrum Management and high throughput (HT). An access point (AP) or a wireless transmit/receive unit (WTRU) may indicate VHT capability by way of signaling.
US09647740B1
A method, communication device, and computer program product mitigates Specific Absorption Rating (SAR) exposure to a user who is proximate to a communication device. The method includes an on-device measurement receiver of a communication device detecting a first complex reflected signal corresponding to transmit signals that are reflected by a first antenna. The method includes a controller determining a pair of first complex return loss values based on a first complex transmit power signal and the first complex reflected signal. The method includes the controller determining whether both the first complex return loss values differ from respective baseline values by respective Specific Absorption Rate (SAR) threshold amounts. In response to the controller determining that both the first complex return loss values differ by the respective SAR threshold amounts, the controller reduces an output power level of a transceiver that delivers power to the first antenna.
US09647720B2
A system that incorporates teachings of the subject disclosure may include, for example, a method for selecting a spectral region in a radio frequency spectrum for initiating a communication session having an uplink and a downlink, correlating a signal strength of portions of the spectral region to generate a correlation factor, detecting radio frequency interference in the spectral region according to the correlation factor, and generating tuning coefficient data to substantially suppress the radio frequency interference in the spectral region during the communication session. Other embodiments are disclosed.
US09647714B2
An apparatus that facilitates one-handed use of a mobile device has a finger brace configured to brace a user's finger on each of two opposed sides of the point where it is coupled to a flexible member. The flexible member extends through a hole in the back portion of the mobile device's case and is anchored to an interior surface of the back portion of the case. The flexible member's length is such that two fingers of the user's hand can press against the finger brace to brace the mobile device when the two fingers are between the finger brace and the case.
US09647711B2
According to one embodiment, an electronic device includes a cover, a flexible board, a coupler, a communication module, and an output device. The cover covers at least a part of the flexible board. The coupler is on the flexible board and has flexibility. The communication module performs close proximity wireless communication by using the coupler. The output device outputs at least a part of data received by the coupler.
US09647708B2
A multi-mode receiver includes a channel decomposition module (e.g., a Rake receiver) for separating a received signal into multipath components, an interference selector for selecting interfering paths and subchannels, a synthesizer for synthesizing interference signals from selected sub channel symbol estimates, and an interference canceller for cancelling selected interference in the received signal. At least one of the channel decomposition module, the synthesizer, and the interference canceller are configurable for processing multi-mode signals.
US09647707B1
A signal receiver includes a first mixer configured to mix its first input with its second input associated with an oscillating output of a first synthesizer into an output; a first splitter configured to split its input associated with the output of the first mixer into a first output and a second output; a first switch matrix configured to switch its first input associated with the first output of the first splitter into a first output; a second switch matrix configured to switch its first input associated with the second output of the first splitter into a first output; a second mixer configured to mix its first input associated with the first output of the first switch matrix with its second input associated with an oscillating output of a second synthesizer into an output; and a third mixer configured to mix its first input associated with the first output of the second switch matrix with its second input associated with an oscillating output of a third synthesizer into an output.
US09647699B1
A power harvesting circuit for use in an open drain transmitter circuit is configured to generate two distinct harvested supply voltages at different voltage levels along with two distinct cascode voltages at different voltage levels. The harvested supply voltages are used to power circuitry in the transmitter circuit. The cascode voltages are used to bias cascode transistors in the open drain circuitry for different channels.
US09647685B1
Methods, systems, and apparatus, including computer programs encoded on a computer storage medium, for compressing rows of data stored in a first matrix using run length encoding (RLE) to produce an RLE encoded matrix. Compressing columns of the RLE encoded matrix into a set of arrays by differentially encoding data count values of the RLE encoded matrix, wherein each array in the set of arrays represents a column of the RLE encoded matrix.
US09647684B2
Systems, devices and methods for data compression using history search for dictionary based compression. Systems, devices and methods may use parallel processing techniques for data compression and encoding. Systems, devices and methods may provide memory search techniques for hardware.
US09647682B1
A divider divides an input data into a plurality of data blocks. A hash calculator calculates a hash value of each data block. A compression dictionary memory stores a compression dictionary that stores a previous input data and includes a shared dictionary shared by different data lengths. A hash table memory stores a hash table that stores an address representing a storage location of the data block corresponding to the hash value on the compression dictionary for each data block and includes a shared table shared by different data lengths. An address acquirer acquires the address corresponding to the data block based on the hash table. A matcher determines sameness between the previous data block indicated by the address and the new input data. An encoder generates a compressed data that includes matching information and a matched portion is converted to the address.
US09647681B2
A system, method and computer program product for encoding an input string of binary characters representing alphanumeric characters. A system includes: a character writing engine for writing a binary character to an empty cell of a multi-dimensional shape beginning with a starting empty cell; a next cell determination engine for determining a next empty cell by traversing neighboring cells in the multi-dimensional shape until an empty cell is located; a loop facilitator for looping back to the character writing engine and the next cell determining engine until there are no more data characters or a next empty cell is not determined; and a serialization engine for serializing the cells into a one dimensional binary string of characters representing an encoded string of alphanumeric characters.
US09647677B2
An integrator according to an embodiment includes first and second nodes, first to fifth switches, first and second main integration capacitors, and a first subsidiary integration capacitor. The first (second, third, fourth, fifth) switch has one end connected to a first (third, first, fourth, first) node and the other end connected to a third (second, fourth, second, fifth) node. The first main integration capacitor has one end connected to the third node and the other end connected to a standard voltage line. The second main integration capacitor has one end connected to the fourth node and the other end connected to the standard voltage line. The first subsidiary integration capacitor that has one end connected to the fifth node and the other end connected to the standard voltage line.
US09647674B2
A clock signal generator responsive to synchronization pulses to perform actions has a phase locked loop (PLL) part including a digitally controlled oscillator (DCO) and an output driver coupled to the DCO, and a synthesizer part including a frequency synthesizer responsive to frequency and phase information from the DCO to generate a synthesized clock and programmable output dividers for generating output clocks from the synthesized clock. An interface establishes communication between the PLL part and the synthesizer part. The output driver is programmed to compute a phase offset required to align a selected output divider with the phase of the DCO and transmit the computed offset to the selected output divider over said interface for application to said selected output divider upon the occurrence of a synchronization pulse.
US09647672B2
A digitally compensated phase locked oscillator (DCPLO) is disclosed herein. The DCPLO comprises: a DCPLO input for receiving a reference signal at a known frequency; a DCPLO output for outputting a signal at a desired frequency; a phased locked loop (PLL), the phased locked loop comprising: a phase frequency detector, an oscillator, and a PLL output coupled to the output; a first direct digital synthesizer (DDS), the first DDS having an output coupled to the PLL to supply a DDS signal to the PLL for adjusting the frequency within the PLL so as to maintain phase lock over the operating temperature; a temperature sensor; and a processor coupled to the first DDS, the phase frequency detector, and the temperature sensor, the processor configured to set the frequency of the first DDS according to a temperature sensed by the temperature sensor.
US09647670B2
In one form, an oscillator includes an oscillator core circuit and a dynamic gain control circuit. The oscillator core circuit is for connection to a frequency reference element and provides a first clock signal using a negative gain element having a gain determined by a gain control signal. The dynamic gain control circuit provides the gain control signal to set an absolute value of the gain to a first level during a startup state, and changes the gain control signal to reduce the absolute value of the gain to a second level lower than the first level after the first clock signal has reached a steady state.
US09647669B1
Disclosed examples include frequency divider circuits, comprising an even number 4 or more differential delay circuits coupled in a cascade ring configuration of a configurable length N, with N−K of the N delay circuits providing an inverted polarity output signal to a succeeding delay circuit in the cascade ring configuration to control an amount of overlap between phase shifted clock signals from the delay circuits.
US09647668B2
A semiconductor die includes at least one flexible interface block. The flexible interface block includes at least one interconnect, and at least one buffer coupled to the at least one interconnect. The flexible interface block further includes a routing interface coupled to circuitry integrated in the semiconductor die, and a controller coupled to provide communication between the routing interface and the at least one buffer.
US09647663B1
An input buffer circuit that receives differential signals includes a first resistive path circuit, a second resistive path circuit and a feedback circuit. The first resistive path circuit may generate a first common mode voltage from the differential signals. The feedback circuit is coupled to the first resistive path circuit. The feedback circuit receives the first common mode voltage as an input. The second resistive path circuit includes a transistor circuit and a resistor formed in a serial circuit configuration. The second resistive path circuit may generate a second common mode voltage on a node formed between the transistor circuit and the resistor by controlling activation of the transistor circuit using outputs from the feedback circuit. The first common mode voltage may be substantially identical to the second common mode voltage.
US09647662B1
A superconducting system is provided that includes a coplanar superconducting circuit. The coplanar superconducting circuit includes a first ground plane region, a second ground plane region electrically isolated from the first ground plane region by portions of the coplanar superconducting circuit, and a tunable coupler having a first port and a second port. The tunable coupler comprises a variable inductance coupling element coupled between the first port and the second port, a first termination inductor having a first end coupled between a first end of the variable inductance element and a second end coupled to the first ground plane region, and a second termination inductor having a first end coupled between a second end of the variable inductance element and a second end coupled to the second ground plane region.
US09647651B2
To provide a delay circuit improved in the accuracy of a delay time. A delay circuit is provided which includes a plurality of switches respectively provided between a plurality of constant current sources and a delay time adjustment terminal, a control circuit which ON/OFF-controls the switches, and a comparator circuit which compares a voltage of the delay time adjustment terminal and a reference voltage. The control circuit sequentially turns ON the switches every preset period after a signal is inputted to a signal input terminal and sets as a delay time, a time taken for the comparator circuit to detect that the voltage of the delay time adjustment terminal exceeds the reference voltage.
US09647650B2
A clock generating device includes a first timing delay module, a multiplexer, and a second timing delay module. The multiplexer is electrically connected to the first timing delay module. The second timing delay module is electrically connected to the multiplexer. The first timing delay module generates a plurality of delayed clock signals based on a reference clock signal. The multiplexer outputs a first delayed clock signal and a second delayed clock signal, among the plurality of delayed clock signals, based on a clock generating signal. The second timing delay module generates an output clock signal based on the clock generating signal, the first delayed clock signal and the second delayed clock signal.
US09647647B2
A semiconductor device includes a first circuit block that is connected between a first power supply voltage line and a first reference voltage line, a second circuit block that is connected between a second power supply voltage line and a second reference voltage line and transmits and receives signals with the first circuit block, a first clamp circuit that clamps a potential difference between the second power supply voltage line and the first reference voltage line, a resistor circuit that is connected between the second power supply voltage line and the second circuit block and includes a resistance value that is greater than an impedance of the first clamp circuit, and a second clamp circuit that clamps a potential difference between a line connected between the resistor circuit and the second circuit block and the first reference voltage line.
US09647642B2
A clock generator comprises a voltage controlled oscillator including a ring oscillator which has a plurality of differential inverter circuits connected in a ring shape, and a phase controller to control an output of a differential inverter circuit which belongs to a second group, in a first state or a second state, for a predetermined time period. The differential inverter circuit which belongs to the second group is distinct from a differential inverter circuit which belongs to a first group. The differential inverter circuit which belongs to the second group, in the first state, outputs a first logic signal from a first differential output terminal and outputs a second logic signal from a second differential output terminal. Further, the differential inverter circuit which belongs to the second group, in the second state, outputs the second logic signal from the first differential output terminal and outputs the first logic signal from the second differential output terminal.
US09647639B1
Exemplary embodiments of the present disclosure are related to baseband filters. A device may include a digital-to-analog converter (DAC) configured to output a DC current. The device may also include an operational amplifier coupled to an output of the DAC and configured to bias an input stage of the operational amplifier with the DC current.
US09647632B2
A preferred method for efficiently tuning RF ports while avoiding conventional labor intensive, step-by-step processes is disclosed. The method may use at least three tuning blocks (comprised of capacitors and inductors) in a series topology and at least three tuning blocks in a shunt topology. These tuning blocks will yield two circles that can be charted on the Smith chart. Those circles may then be centered along the centerline of the Smith chart to adjust for latency, and then expanded to adjust for the losses. Once those circles have been expanded, the circle (either series or shunt) that encompasses one the Smith chart reference circles is used and the traditional Smith chart methodology can be used to tune the RF port.
US09647624B2
Embodiments of the present disclosure are directed to techniques for adjusting the amplitude of a digital audio signal in the frequency domain to control the perceived loudness of the audio signal at a desired level. In one embodiment, a method first adjusts the audio signal to a desired loudness level by applying an adaptive wideband gain and thereafter a multi-band compression is applied to further reduce a dynamic range of the audio signal, and noise analysis and temporal masking operations are also performed to provide a pleasant sound for a listener or listeners.
US09647620B2
A method for controlling a gain applied to an audio signal. The method comprises applying a gain step to a gain setting at defined time intervals, and upon detection of at least one zero crossing point within the audio signal, applying the gain setting to a gain control signal for controlling the gain applied to the audio signal.
US09647613B2
A differential amplification circuit includes a first current control unit configured to control driving current in response to a voltage level difference between first input voltage and second input voltage, a second current control unit configured to control the driving current in response to a voltage level difference between the second input voltage independent from temperature and a temperature voltage depending on the temperature, and a signal output unit configured to generate a detection signal in response to the driving current.
US09647612B2
A power amplifying apparatus includes an amplifier configured to amplify an input signal and supply a load with the amplified input signal, a current detecting circuit, disposed at an output stage of the amplifier, configured to detect a current of an output signal from the amplifier, a current feedback circuit configured to provide feedback of the detected current of a certain feedback amount, a voltage feedback circuit configured to provide feedback of a voltage of the output signal of a certain feedback amount, and an adjuster configured to adjust the input signal using the feedback current and the feedback voltage.
US09647610B2
A radio frequency (RF) amplification device comprises an RF amplification circuit, and a dynamic level shifter (DLS) circuit coupled between a supply voltage and the RF amplification circuit. The DLS circuit is configured to provide a first shifted voltage to the RF amplification circuit via a first diode when the supply voltage is above a first threshold voltage level. The DLS circuit is further configured to provide a second shifted voltage to the RF amplification circuit via a first shunt transistor when the supply voltage is below the first threshold voltage level, wherein the supply voltage less the second shifted voltage is less than the supply voltage less the first shifted voltage.
US09647609B2
A transceiver may include a reception (Rx) radio frequency (RF) part configured to process a received signal, a transmission (Tx) RF part configured to process a transmitted signal, and a phase lock loop (PLL) configured to provide a reception frequency to the reception RF part and provide a transmission frequency to the transmission RF part. The PLL may be controlled according to whether the reception RF part or the transmission RF part is on. In addition, a transceiver may include quenching waveform generator (QWGs) to control quenching waveforms of the RF parts corresponding to a plurality of antennas. The quenching waveforms may be generated respectively by VCOs operating at a same frequency. The QWGs may control the VCOs such that the quenching waveforms do not overlap.
US09647602B1
An electric machine assembly includes an electric machine having a stator and a rotor. The stator has stator windings at a stator winding temperature (tS) and the rotor is configured to rotate at a rotor speed (ω). A controller is operatively connected to the electric machine and has a processor and tangible, non-transitory memory on which is recorded instructions for executing a method for determining stator winding resistance. The controller is configured to determine a high-speed resistance factor (rH) which is based at least partially on the torque command (T*), the stator winding temperature (tS), the rotor speed (ω), a characterized torque error and the number of pole pairs (P). The controller may determine a total resistance value (R) based on a weighting factor (k), the high-speed resistance factor (rH) and the low-speed resistance factor (rL).
US09647600B2
The device according to the invention controls a polyphase inverter (10, 14, 17) intended for powering from a DC current source (CC) a polyphase rotating electric machine (1). The device is of the type of those generating commutation functions driving commutation elements (9, 13) of the inverter in such a way as to obtain a reduction of the losses in the commutation elements and a decrease of an effective current in a decoupling capacitor (16) of the source (CC). According to the invention, this reduction and this decrease are obtained by means of a set of control strategies (21, 24) determining the commutation functions by using additional degrees of freedom of the polyphase machine (1) with respect to a three-phase reference machine. The polyphase machine comprises first and second phase windings forming a first three-phase system (2, 3, 4) and a second three-phase system (5, 6, 7) with distinct neutral points (11, 15) offset angularly by a predetermined angle of offset (Θ). The first and second phase windings are linked respectively to three first and three second power arms (8, 12) formed by the commutation elements.
US09647597B2
A motor control apparatus includes a voltage regulator to execute a voltage increase mode to increase a voltage applied to an induction motor from a lower limit of a first range over time. A frequency regulator executes a frequency decrease mode to decrease a frequency of the voltage from an upper limit of a second range over time. The frequency regulator limits decrease of the frequency when a bus voltage of a bus exceeds a first threshold in the frequency decrease mode. The bus supplies DC power to an inverter to drive the motor. A mode changer alternatively changes the voltage increase mode and the frequency decrease mode to control the motor to change from a free running state to a state in which the voltage and the frequency satisfy a relationship. The determinator determines whether the voltage and the frequency satisfy the relationship.
US09647585B2
Brushless direct-current (“BLDC”) motor and control for a power tool. A BLDC motor of a power tool is controlled in either a pulse-width modulation (“PWM”) commutation mode or a centerline commutation mode. When the motor is rotating slowly, the motor is operated using PWM commutation. When the motor is rotating at a speed greater than a threshold speed value, the operation of the motor is transitioned to the centerline commutation mode. When operating in the centerline commutation mode, the high-side field-effect transistors (“FETs”) and low-side FETs can each be used for motor speed control. By switching between speed control using the high-side FETs and speed control using the low-side FETs, the heat generated by freewheeling currents can be approximately evenly distributed among the high-side and low-side FETs.
US09647581B2
A motor drive according to the present invention has a dynamic braking circuit. The motor drive includes a motor drive control circuit for applying a voltage to windings of a synchronous motor and the dynamic braking circuit for a predetermined time by switching power transistors connected to a direct current power supply, a current detection circuit for detecting a current value outputted from the power transistor, and a failure determination circuit for determining the presence or absence of a failure in the dynamic braking circuit from the current value detected by the current detection circuit and a predetermined threshold value. When the presence or absence of a failure in the dynamic braking circuit is detected, the resistance of the dynamic braking circuit is changed.
US09647576B2
A vibration type driving apparatus including:a vibrator including an electro-mechanical energy conversion device; a driven body between the vibrator and a movable body and driven in a first direction by the vibrator; and a moving mechanism that allows the movable body to move in a second direction relative to the driven body, in which the second direction is a direction intersecting the first direction in a plane parallel to a plane where the vibrator and the driven body are in contact with each other.
US09647568B1
Methods and systems for bi-directional multi-port power conversion systems and applications are disclosed. In some sample embodiments, current-modulating power converters can be used to provide conversion between synchronous and asynchronous power. In some sample embodiments, current-modulating power converters can perform power conversion can be performed to and from three-phase AC with an active neutral line. In some sample embodiments, current-modulating power converters can convert between synchronous and asynchronous power and also support three-phase AC with active neutral.
US09647564B2
A power supply device according to the present invention includes: a filter capacitor coupled to a line to which an input voltage that is passed through a dimmer is supplied; a discharge switch coupled to the filter capacitor through the line; and a main switch receiving the input voltage and controlling power transmission. The power supply device performs input voltage control for shaping the input voltage with a predetermined pattern using the discharge switch.
US09647562B2
In accordance with an embodiment, a method includes driving an electronic switch in a switched-mode power converter in successive drive cycles, wherein driving the switch in each of the drive cycles comprises switching on the electronic for an on-period and subsequently switching off the electronic switch for an off-period. The method further includes establishing the on-period based on a comparison of an on-time signal with an off-threshold, calculating the off-threshold based on an output signal of the switched-mode power converter and a compensation offset, and calculating the compensation offset in one drive cycle based on an estimated delay time, wherein the estimated delay time is calculated based on a measured delay time and an estimated delay time of a previous drive cycle.
US09647546B2
Devices and methods provide a voltage regulating device including voltage supply circuitry configured to receive a first voltage, generate at least a second voltage based on the first voltage, and output an output voltage, the output voltage being one of the first voltage and the second voltage based on a voltage selection signal; regulator circuitry configured to switch between the output voltage and a reference potential based on a control signal; and control circuitry configured to generate the control signal, the control signal having a first duty cycle if the output voltage is the first voltage and a second duty cycle if the output voltage is the second voltage, the control circuitry configured to adjust the second duty cycle based on, at least in part, a droop voltage in the regulator circuitry.
US09647541B2
In a hysteretic control DC/DC converter apparatus having a coupling circuit that couples a voltage input to a voltage output, a control signal is generated based on a node voltage at a node in the coupling circuit. The node is alternately connected to a fixed potential and disconnected from the fixed potential in accordance with a frequency of the control signal.
US09647539B1
A charge pump includes chip, package substrate and circuit board. Chip includes transistor set including at least four transistors connected to first input end of input terminal set and two rows of odd number and even number second input ends of input terminal set. Except first transistor, the other transistors are arranged in two rows subject to odd number and even number and respectively electrically coupled to the two rows of at least three second input ends by traces. At least three second external pins of package substrate and at least three capacitors of circuit board are respectively arranged in two rows subject to odd number and even number, enabling first circuit with connected odd number second external pins and second circuit with connected even number second external pin to be kept apart without intersection. Traces in chip are arranged in staggered manner, reducing parasitic capacitance.
US09647537B2
A circuit for generating a negative voltage on the basis of a positive voltage, including: at least one first transistor between a first terminal for applying a potential greater than a reference potential and a first node; a first capacitive element between the first node and a second node, a control terminal of said first transistor being linked to the second node; a first switch between the first node and a second terminal for applying the reference potential; a second switch between the second node and a third terminal for providing said negative voltage; a third switch between the second node and the second terminal; and a second capacitive element between the third terminal and the second terminal.
US09647523B2
A system has a first operation substrate, the operation substrate having at least one sliding surface and at least one conductive trace in a layer in the substrate, at least one flex circuit magnetically coupled to the operation substrate, the flex circuit having at least one sliding surface and at least one conductive trace in the substrate, and at least one manipulator moveable across the sliding surfaces of the operation substrate and the flex circuit by magnetic fields generated by application of current to the conductive traces.
US09647519B2
A number of variations may include a method of assembly of a rotor and a stator having a concentric air gap in an electric motor comprising: providing inflatable gap support tooling in a deflated state in an air gap between a rotor and a stator; filling the inflatable gap support tooling with a fluid so that it uniformly fills at least a portion of the air gap between the stator and the rotor and holds the stator and the rotor together as a single unit; placing the single unit into a motor assembly; seating a plurality of bearings into the motor assembly; locking the stator into place in the motor assembly; removing the fluid from the inflatable gap support tooling; and removing the inflatable gap support tooling from the motor assembly.
US09647513B2
An actuator unit, a robot including the same, and a reducing apparatus, the actuator unit including a driving unit; a sensor unit; a control unit; and a frame unit.
US09647512B2
The electric machine has a casing housing a stator and a rotor and containing a gas, and a dryer for the gas. The dryer is connected to the casing. The dryer includes a separation group, for separating humidity from the gas, a water accumulator, for at least temporally accumulating water discharged from the separation group, at least a detector for the water contained in the water accumulator.
US09647505B2
A rotating electrical machine is configured such that, in a rotor coil, ventilation passages are formed in two lines arranged in a width direction of the rotor coil, and formed in the same shape at a plurality of positions spaced from each other in a longitudinal direction, 0.3≦W1/W2≦0.7 . . . (Expression 1) is satisfied, where (W1) is a width dimension of the ventilation passage in the longitudinal direction and (W2) is a width dimension from one end of the ventilation passage to one end of another ventilation passage adjacent thereto, and 0.025≦W4/W3≦0.08 . . . (Expression 2) is satisfied, where (W3) is a width dimension of the rotor coil and (W4) is a width dimension of the ventilation passage.
US09647504B2
Electrically insulating material so foldable as to form an interphase insulator so configured as to be inserted in the slots of the stator or the rotor of an electric machine to prevent separate coils inserted in the same slot to be in direct contact with one another and to prevent the coil heads of different coils to be in direct contact is described herein. The interphase insulator may be so folded that the coil heads are properly insulated from one another.
US09647484B2
A wireless charging transceiver device includes an energy storage module, a coil, a switch module, a rectifier circuit, and a resonant circuit. The coil is used to induce an external magnetic field or receive an external charging signal, and is used to transmit a wireless charging signal. The switch module is used to be coupled between the energy storage module and the coil through a first or second electrical path. The rectifier circuit is coupled between the energy storage module and the switch module, and is sited in the first electrical path, and rectifying a first inducing current which is induced from the external magnetic field in a first mode. The resonant circuit is coupled between the energy storage module and the switch module, and is sited in the second electrical path.
US09647483B1
A wireless power transfer system includes a receive coil system nested within a transmit coil system forming a closed magnetic circuit. The transmit coil system includes a non-planar tapered transmit coil disposed within a tapered ferrite housing and a layer of insulating material surrounding the non-planar tapered transmit coil and the tapered ferrite housing. The receive coil system includes a ferrite plug comprising a column portion centrally secured to a plate portion, a non-planar receive coil wound around the column portion, a layer of insulating material surrounding the column portion and the non-planar receive coil, and a hemispherical covering surrounding the insulated column portion and non-planar receive coil. The non-planar receive coil has a smaller diameter than the non-planar tapered transmit coil. The maximum outside diameter of the hemispherical covering is less than or equal to the minimum inside diameter of the non-planar tapered transmit coil.
US09647482B2
A wireless charging system is disclosed. The wireless charging system includes a coil to create electromagnetic field and a sniffer system to detect a presence of a low frequency (LF) signal. The sniffer system is configured to deactivate the coil for a predetermined duration and perform an operation to detect the presence of the LF signal.
US09647478B2
A method, a device and an electrical system for discharging a first electrical network. The first electrical network comprises in particular an intermediate circuit which comprises in particular an intermediate-circuit capacitor. The first electrical network is connected to a second electrical network by means of a DC-DC converter for this purpose. The first electrical network is discharged by means of the DC-DC converter. At the same time, the DC-DC converter transfers electrical energy into the second electrical network. For discharging, the output voltage of the DC-DC converter is set to a first voltage value, which is larger than the nominal voltage of the second electrical network. For discharging, the output voltage of the DC-DC converter is set to the first voltage value for a predefinable first period of time.
US09647475B2
A charger for charging a terminal, includes: a power supply device configured to output a direct current (DC) charging current, the power supply device including a voltage output port and a feedback receiving port; a charging port configured to connect to the terminal, and to output the DC charging current from the power supply device to the terminal, the charging port including a power supply port and a data signal port, the power supply port being connected to the voltage output port and configured to output the DC charging current to the terminal; a charging control device; and a switch device provided between the feedback receiving port and the charging port, and configured to connect the feedback receiving port to the power supply port or the data signal port according to control of the charging control device.
US09647474B2
A protective case for a mobile device is disclosed. The case includes an additional power source (i.e., a battery) that can supply electric current to the mobile device. A processing device within the protective case may be wirelessly connected to the mobile device, such as with a Bluetooth interface, and thereby control operational aspects of the battery case, including for example control over supplying power to the mobile device. The battery case may be part of a charging system or kit that includes a uniquely designed separate charger. In yet another aspect, the protective case may include unitary bumper flexible bumper co-molded to the body of the case and a male connector extending from a nested portion that is adapted to tilt outward from the case to facilitate insertion of the corresponding female port on the mobile device into the connector and into the case. The protective case may also include a stand in the form of dock or cradle to allow positioning and/or charging of the battery case and mobile device via external contact terminals correspondingly positioned on the outside of the case and in the cavity of the cradle.
US09647466B2
A battery system includes a battery module that is constituted with a plurality of serially connected battery cells, a plurality of integrated circuits that group the battery cells so as to perform processing on battery cells in each group, a first transmission path through which a command signal is transmitted via a first insulating circuit from a higher-order control circuit that controls the integrated circuits to a highest-order integrated circuit of the integrated circuit, a second transmission path through which a data signal collected by the integrated circuits is transmitted from the highest-order integrated circuit to a lowest-order integrated circuit, and a third transmission path through which the data signal is transmitted from the lowest-order integrated circuit to the higher-order control circuit via a second insulating circuit.
US09647460B2
A system for the inductive charging of an energy accumulator of a vehicle, and a charging station, an electronic circuit being provided in the interior of a hood, the opening of which is situated at the bottom side of the hood.
US09647454B2
Techniques for determining conditions of power lines in a power distribution system based on measurements collected by a plurality of sensor units deployed in the power distribution system. Techniques include obtaining first transformed data associated with a first set of one or more measurements collected by a first sensor unit in the plurality of sensor units and second transformed data associated with a second set of one or more measurements collected by a second sensor unit in the plurality of sensor units, and determining, by using at least one processor and based at least in part on one or more features calculated from the first transformed data and the second transformed data, at least one condition of at least one power line in the power distribution system.
US09647444B2
A current limiting circuit for a motor controller includes a comparator. The comparator has a sensed current input, a current threshold input, and an overcurrent protection trip output. A variable resistance current threshold circuit is connected to the current threshold input. A first controller is connected to the variable resistance current threshold circuit via a plurality of connections. The first controller is configured to control a voltage output of the variable resistance current threshold circuit.
US09647421B2
The semiconductor laser module 1 has a first substrate 10, a second substrate 20 provided on the first substrate 10, a semiconductor laser device 30 operable to emit a laser beam L having an optical axis along the Z-direction, a collimator lens 40 configured to collimate components of the laser beam L along a direction of a fast axis (Y-direction), and a lens fixture block 50 having a lens attachment surface 50A and a block fixation surface 50B that are perpendicular to the X-direction. An end 40A of the collimator lens 40 along the X-direction is fixed to the lens attachment surface 50A of the lens fixture block 50 with a lens fixation resin 42. The block fixation surface 50B of the lens fixture block 50 is fixed to a side surface 20A of the second substrate 20 along the X-direction with a block fixation resin 52.
US09647418B1
A desired Nth-order Stokes output and zeroth-order Stokes pump input are seeded into a rare-earth doped amplifier where the power of the zeroth-order Stokes signal is amplified prior to both signals entering a Raman amplifier comprised of N−1 Raman resonators, each uniquely tuned to one of the N−1 Stokes orders, in various configurations to include one or more nested and/or in-series Raman resonators. The zeroth-order Stokes signal is converted to the Nth−1-order Stokes wavelength in steps and the power level of the Nth-order Stokes wavelength is amplified as the two signals propagate through the Raman resonators. Each Raman resonator includes a photosensitive Raman fiber located between a pair of Bragg gratings. The linewidths of the Stokes orders can be controlled by offsetting the reflectivity bandwidths of each pair of Bragg gratings respectively located in the Raman resonators.
US09647413B2
Provided are a high-efficiency parallel-beam laser optical fiber drawing method and optical fiber, the method including the steps of: S1: providing base planes on the side surfaces of both a gain optical fiber preform and a pump optical fiber preform, inwardly processing the base plane of the gain optical fiber preform to make a plurality of ribs protrude, and inwardly providing a plurality of grooves on the base plane of the pump optical fiber preform; S2: embedding the ribs into the grooves, tapering and fixing one end of the combination of the ribs and the grooves to form a parallel-beam laser optical fiber preform; S3: drawing the parallel-beam laser optical fiber preform into parallel-beam laser optical fibers. The process has high repeatability, and the obtained parallel-beam laser achieves peelability of pump optical fibers in a set area, thus facilitating multi-point pump light injection of parallel-beam laser optical fibers.
US09647412B2
The disclosure relates to a free-electron laser system and a method for generating a packet of relativistic electrons capable of propagating in a first propagation direction (Oz), and a device for generating an undulator beam capable of interacting with the packet of relativistic electrons. In the system, the undulator beam results from combining, at an interaction area through which the propagation direction (Oz) of the packet passes, at least two laser beams propagating in different directions and each of which has at least one non-zero component in a plane orthogonal to the propagation direction (Oz) of the packet. The disclosure also relates to a method for generating a free-electron laser beam involving trapping and guiding a packet of relativistic electrons injected into an interaction area and implementing such a free-electron laser system.
US09647411B2
There is provided a method of controlling the wavelength of a laser beam. The method includes measuring an absolute wavelength of the laser beam; calculating a difference between a reference wavelength and the absolute wavelength of the laser beam; and adjusting the reference wavelength of the laser beam based on the difference between the reference wavelength and the absolute wavelength of the laser beam, at an interval shorter than an interval for which the absolute wavelength of the laser beam is measured.
US09647406B2
There is provided a laser unit that may include a master oscillator, a laser amplifier, and an adjuster. The master oscillator may be configured to output a laser light beam. The laser amplifier may be disposed in a light path of the laser light beam outputted from the master oscillator. The adjuster may be disposed in the light path of the laser light beam, and may be configured to adjust a beam cross-sectional shape of the laser light beam amplified by the laser amplifier to be a substantially circular shape. The beam cross-sectional shape may be at a beam waist of the laser light beam or in the vicinity of the beam waist of the laser light beam, and may be in a plane orthogonal to a light path axis.
US09647405B2
A flat harness is machined by providing a punching machine that includes a first punching device and a second device, and forming different types of hole portions in the shape on the insulating portion of the flat harness in a die cutting process by using the first punching device and the second punching device.
US09647404B2
A brush holder apparatus includes a stationary support member having at least one groove, and a fork electrical connector. The stationary support member has a conductive bar configured to pass through a portion of the stationary support member's main body. The conductive bar is configured to provide electrical conductivity with a collector mount and the fork electrical connector. A brush retainment member is configured to be releasably affixed to the stationary support member. The brush retainment member has at least one rail configured to slide along the at least one groove, and a knife electrical connector configured to mate with the fork electrical connector. The stationary support member is configured for electrical connection to a collector mount and the brush retainment member is configured to retain at least one brush.
US09647398B2
A dual orientation connector having a connector tab with first and second major opposing sides and a plurality of electrical contacts carried by the connector tab. The plurality of contacts includes a first set of external contacts formed at the first major side and a second set of external contacts formed at the second major side. Each individual contact in the first plurality of contacts is electrically connected within the tab or body to a corresponding contact in the second plurality of contacts. In some embodiments contacts in the first and second pluralities of contacts that are directly opposite each other are coupled together. In some other embodiments, contacts in the first and second pluralities of contacts that are in a cater cornered relationship with each other are coupled together. The first plurality of contacts are symmetrically spaced with the second plurality of contacts and the connector tab is shaped to have 180 degree symmetry so that it can be inserted and operatively coupled to a corresponding receptacle connector in either of two insertion orientations.
US09647395B2
An electrical connector for high-frequency transmission comprises an elongate insulative housing including a top wall and a bottom wall opposite to each other, and a pair of end walls respectively connecting two ends thereof, and a receiving cavity surrounded thereby; a terminal assembly received in the top wall and the bottom wall respectively, and stacked in an up-to-down direction; and a metal case enclosing the insulative housing; wherein the terminal assembly includes a signal terminal group, and a ground terminal group including a first contact portion and a second contact portion, wherein the first contact portion and the second contact portion are arranged in a front-to-back direction perpendicular to both the up-to-down direction and the elongate direction, and respectively protruding into the receiving cavity.
US09647380B2
A connector 1 connecting an inverter and a motor includes an inverter case 10 where the inverter is arranged, an inverter side terminal block 30 mounted on the inverter case 10, an inverter side terminal disposed on the inverter side terminal block 30, a motor case where the motor is arranged, a motor side terminal block 40 mounted on the motor case 20, a motor side terminal disposed on the motor side terminal block 40 and fit to the inverter side terminal 32 such that the inverter case 10 is opposite the motor side terminal block 40, and a second sealing member S2 arranged between the inverter case 10 and the motor side terminal block 40 to surround a connection portion of the inverter side terminal 32 and the motor side terminal 42 and configured to seal a space between the inverter case 10 and the motor side terminal block 40.
US09647370B2
It is aimed to maximally suppress the inclination of a terminal fitting in a terminal accommodating chamber. A connector includes a terminal fitting having a wire connecting portion connected to an end of a wire, a housing having a terminal accommodating chamber into which the terminal fitting is to be inserted from behind, and a sleeve fitted on a rear side of the terminal fitting while surrounding the wire connecting portion of the terminal fitting and functioning to retain the terminal fitting by locking both front and rear end parts to the terminal fitting and a wall surface of the terminal accommodating chamber. An inclination regulating portion configured to regulate such inclination of the terminal fitting relative to the sleeve as to incline axial lines of the terminal fitting and the sleeve relative to each other is provided near a fitting part of the terminal fitting and the sleeve.
US09647369B2
An electrical receptacle connector includes a first insulated member and a second insulated member that are received in a metallic shell. A plurality of first receptacle terminals and a plurality of second receptacle terminals are respectively held in the first insulated member and the second insulated member. The first insulated member includes a tongue portion. The second insulated member includes a terminal positioning portion on the surface of the first insulated member. The surface of the terminal positioning portion and the surface of the tongue portion are at the same horizontal plane. A surface texture of the terminal positioning portion is different from a surface texture of the tongue portion.
US09647368B2
A female terminal for an electrical connector may generally include a socket with an opening for receiving a male terminal, a first pair of contacts, a second pair of contacts, a pair of crimping members, and positioning tabs. The socket may be defined by a pair of opposing sidewalls, a top, and a bottom, at least in examples where the socket is generally rectangular. The first and second pairs of contacts may be disposed along the pair of opposing sidewalls, projecting at least partially into the socket configured to contact and exert substantially the same normal force on a male terminal that is inserted into the socket. The pair of crimping members can be utilized to secure a wire to the female terminal, and the positioning tabs may be utilized to secure the female terminal within the electrical connector.
US09647367B1
In the present invention, a connector pin assembly for a high voltage (hv) connector used to connect a high voltage (hv) power supply to a cathode assemble of an X-ray tube is provided. The pin connector assembly includes a conductive outer cylinder adapted to be connected to a hv power supply, a conductive inner cylinder located at least partially within the outer cylinder, a biasing member disposed within the inner cylinder, a conductive plunger slidably disposed within and engaged with the inner cylinder and the biasing member and a non-conductive member disposed within the inner cylinder, the non-conductive member operable to restrict a current flowing through the connector pin along a path from the outer cylinder through the inner cylinder to the plunger, without contacting the biasing member.
US09647356B2
A first connector includes a first plurality of eye-of-needle (EON) pins. Each EON pin of the first plurality includes two opposing spring arms. Each EON pin of the first plurality is configured to be received within a corresponding electrical via of a printed circuit board (PCB) such that the spring arms engage walls of the corresponding electrical via at a set of contact points. A second connector includes a second plurality of EON pins. Each EON pin of the second plurality includes two opposing spring arms. Each EON pin of the second plurality is configured to be received within a same corresponding electrical via of the PCB as a corresponding EON pin of the first plurality located at a same relative connector body location such that the spring arms engage the walls of the same corresponding electrical via at a different set of contact points.
US09647354B1
The invention relates to a terminal block splitter connector including an insulating housing, the first conductive metal component, the second conductive metal component, the first fixing component, the second fixing component, the first wire inlet group, the second wire inlet group, the first push button, and the second push button. The first and second push button match with the first and second conductive metal component for on-line and off-line control of the first and second conductive metal component. A conductive connection plate is installed on the bottom of the insulating housing for power connection of the first and second conductive metal component. The first and second pin group are respectively mounted on the bottom of the first and second conductive metal component. The first and second socket group are installed on the conductive connection plate and respectively correspond to the first and second pin group.
US09647335B1
A system for transmitting information between nodes in a point-to-point wireless communication system. The system includes a node with an antenna array and a beamformer that is controllable to orient a main lobe of the antenna array in a desired direction. A spacing of the plurality of antenna elements in the array is adjustable to control a direction of a grating lobe of the antenna array to complete a communication link with a node in the network. Signals are simultaneously transmitted in the direction of the main lobe and the grating lobe to different nodes in the network.
US09647332B2
An electronic device may be provided with an antenna. The antenna may have an antenna resonating element and an antenna ground. The antenna resonating element may be formed from peripheral conductive housing structures. An audio jack or other connector may be mounted in an opening in the peripheral conductive housing structures. The audio jack may overlap the antenna ground. Contacts in the audio jack may be coupled to an interference mitigation circuit. The interference mitigation circuit may include capacitors coupled to the ground and inductors coupled between the contacts and the capacitors. Radio-frequency signal blocking inductors may be coupled between the interference mitigation circuit and respective ports in an audio circuit.
US09647330B1
A radome tip assembly has high fracture toughness due to a tip and a bushing fastener that attaches the tip to a radome where both the tip and bushing fastener are constructed from a mixture of aluminum oxide ceramic material and reinforcing silicon-carbide crystal whiskers and the radome is constructed of an oxide ceramic matrix composite material.
US09647326B1
A design for high-efficiency broadband antennas which includes a D-plate and an E-cylinder, electrically insulated from each other, the E-cylinder being above the D-plate, and both parts insulated from a ground plane. The E-cylinder and D-plate may be fed by distinct feed networks with adjustable impedance.
US09647325B2
A flexible, printable antenna for automotive radar. The antenna can be printed onto a thin, flexible substrate, and thus can be bent to conform to a vehicle body surface with compound curvature. The antenna can be mounted to the interior of a body surface such as a bumper fascia, where it cannot be seen but can transmit radar signals afield. The antenna can also be mounted to and blended into the exterior of an inconspicuous body surface, or can be made transparent and mounted to the interior or exterior of a glass surface. The antenna includes an artificial impedance surface which is tailored based on the three-dimensional shape of the surface to which the antenna is mounted and the desired radar wave pattern. The antenna can be used for automotive collision avoidance applications using 22-29 GHz or 76-81 GHz radar, and has a large aperture to support high angular resolution of radar data.
US09647318B2
A modular reconfigurable indoor antenna is disclosed. The antenna may include a bottom piece, a top piece, and a plurality of vertical members. The top piece may include an Ultra High Frequency (UHF) reception element. The plurality of vertical members may be disposed between the bottom piece and the top piece and coupled therewith. At least one of the plurality of vertical members may include a Very High Frequency (VHF) reception element.
US09647317B2
Disclosed herein is a radio communication module, including: a printed circuit board provided with a receiving unit receiving a radio wave and provided with a via hole; an antenna including a connector which has a transmitting unit connected to the receiving unit formed thereat and forms a ring part outwardly bent at a tip thereof and forms a cut part at a circumference thereof so that the ring part is elastically deformed so as to be inserted and fastened into the via hole; a ground GND formed on the printed circuit board; and a discharge unit disposed between the receiving unit and the ground and including an ESD diode and a discharge line guiding electrostatic discharge (ESD) introduced from the outside to the ground.
US09647315B2
A directional coupler includes a multilayer structure formed by stacking a plurality of dielectric layers including first and second dielectric layers; a main line including first and second main line portions that are electrically connected in series to each other; and a sub line electromagnetically coupled with the main line, the sub line including first and second sub line portions that are electrically connected in series to each other. The first main line portion and the first sub line portion are provided on the first dielectric layer. The second main line portion and the second sub line portion are provided on the second dielectric layer. In planar view along a stacking direction, the first main line portion and the second sub line portion overlap one another, and the first sub line portion and the second main line portion overlap one another.
US09647304B2
A battery cooling structure in which a heat transfer sheet that can be deformed by pressure is held between a cooling plate and a cooling surface of a battery module in which a plurality of battery cells are stacked, and heat of the battery module is transferred from the cooling surface to the cooling plate via the heat transfer sheet to thus carry out cooling, wherein the cooling plate is a hollow member in which a cooling medium passage is formed for a cooling medium to flow, and the heat transfer sheet is formed so as to have a larger thickness in a middle part than in an outer peripheral part.
US09647303B2
The present invention discloses an overheat prevention energy storage system preventing self from overheating, comprising a heat dissipating external surface, wherein at least a portion of the external surface is coated with at least one layer of heat dissipation coating of high emissivity. The present invention further discloses a method for preventing overheat of the energy storage system and a method for forming at least one layer of heat dissipation coating of high emissivity onto at least part of an external surface of the energy storage system or assemblies thereof.
US09647301B2
A battery monitoring apparatus monitors a battery pack configured by a plurality of battery cells. The battery monitoring apparatus includes a main monitoring unit, a sub monitoring unit and a control unit. The main monitoring unit monitors a plurality of physical quantities indicating a battery state of the battery pack. The sub monitoring unit monitors a part of the physical quantities separately from the main monitoring unit. The control unit detects malfunction of the battery pack on the basis of at least one of a monitoring result of the main monitoring unit and a monitoring result of the sub monitoring unit.
US09647292B2
A battery cell assembly having a cooling fin with a tube and a flexible thermally conductive sheet disposed on the tube is provided. The tube has first, second, and third tube portions. The sheet has first, second, and third sheet portions. The first and second sheet portions are disposed on at least the first and second tube portions, respectively, and the third sheet portion extends between the first and second tube portions. The assembly further includes a first clamping member clamping the first sheet portion to the first tube portion, and a second clamping member clamping the second sheet portion to the second tube portion. The assembly further includes a battery cell disposed against the third sheet portion.
US09647282B2
Provided is a method of controlling a fuel cell system including a stop command sensing process of sensing a stop command output when the fuel cell system stops, an anode pressure increasing process of increasing pressure so that the pressure of the anode reaches a first predetermined pressure value, and a stop-time discharge process of performing discharge by consuming oxygen remaining within an oxidant off-gas while driving an oxidant off-gas circulation pump.
US09647280B2
An object is to supply a sufficient amount of air to a fuel cell stack in a fuel cell vehicle when the fuel cell stack is mounted below a floor, the fuel cell stack configured to draw in air through an intake duct and discharge air to the exterior through an exhaust duct. An air introduction surface (26) faces upward or downward in a vehicle upper and lower direction, an intake passage portion (30) of the intake duct (28) extends along the air introduction surface (26) and vertical walls (31, 32) of left and right end portions of the fuel cell stack (11) while a pair of air introduction ports (33, 34) opens in left and right end portions of the intake passage portion (30), and an exhaust passage portion (39) of the exhaust duct (29) extends along an air discharge surface (27) and vertical walls (40, 41) of front and rear end portions of the fuel cell stack (11) while a pair of air discharge ports (42, 43) opens in front and rear end portions of the exhaust passage portion (39).
US09647277B2
A method for forming a hydrolytically-stable hydrophilic coating on a fuel cell flow field plate comprises contacting a flow field plate with a titanium oxide sol to form a titanium oxide layer disposed upon the flow field plate. The coated flow field plate is subsequently contacted with a silicon oxide sol to form a silicon oxide/titanium oxide bilayer disposed upon the flow field plate. A flow field plate formed by the method is also provided.
US09647274B2
One embodiment includes a method comprising providing a first catalyst coated gas diffusion media layer, depositing a wet first proton exchange membrane layer over the first catalyst coated gas diffusion media layer to form a first proton exchange membrane layer; providing a second catalyst coated gas diffusion media layer; contacting the second catalyst coated gas diffusion media layer, or second proton exchange membrane layer, with the first proton exchange membrane layer; and hot pressing together the catalyst coated diffusion layers and proton exchange membrane layer(s).
US09647267B2
A rechargeable cell comprising h combination a bipolar electrode, a zinc electrolyte, a copper electrolyte and metal-ion impermeable, polymer electrochemical membrane separator, wherein the zinc electrolyte and the copper electrolyte are separated from each other by the bipolar electrode on one side and by the membrane separator on the other side. A battery comprising at least one said rechargeable cell.
US09647258B2
A current collector is covered with sodium metal through: (1) applying a sodium dispersion containing sodium metal and at least one substance selected from the group consisting of an imide salt and a binder, on a current collector in an inert gas environment (with an oxygen concentration of not more than 0.01% and a dew point of not more than −10° C.), followed by heating and drying; (2) pressure bonding a piece of solid sodium metal having a surface which exhibits a metallic luster onto a current collector in the aforementioned inert gas environment; (3) vapor-depositing sodium metal on a current collector in a reduced pressure environment; or (4) immersing a current collector having a surface fired at a temperature ranging from 150 to 300° C. in molten sodium metal after removing a coating film which is generated on a surface and formed from impurities, in the aforementioned inert gas environment.
US09647255B2
Provides are a porous separator that prevents a short-circuit between two electrodes by using a porous nanofiber web where nanofibers have a core-shell structure, to thereby promote safety and thinning simultaneously. The porous separator includes: a porous nonwoven fabric playing a support role and having micropores; and a porous nanofiber web that is laminated on one side of the porous nonwoven fabric, and plays a role of an adhesive layer and an ion-containing layer when the porous nanofiber web is in close contact with an opposed electrode, wherein a portion of the porous nanofiber web is incorporated in a surface layer of the porous nonwoven fabric, to thus partially block pores of the porous nonwoven fabric and to thereby lower porosity of the porous nonwoven fabric. The porous nanofiber web has nanofibers obtained by spinning a mixture of a swellable polymer and a non-swellable polymer to have a core-shell structure.
US09647254B2
In a one-step method for preparing a coated separator, a suspension of i) a ceramic, ii) a cermet, iii) a ceramic with an electrolyte, or iv) a cermet with an electrolyte in a carrier liquid is plasma sprayed without a carrier gas. The carrier liquid is water, alcohol, ethylene glycol, or mixtures thereof.
US09647252B2
According to one embodiment, a nonaqueous electrolyte battery includes a case member, a negative electrode terminal, an electrode group, a negative electrode lead, a rupture member, and a gas releasing portion. The electrode group is provided in the case member, and includes positive and negative electrodes. The negative electrode lead electrically connects the negative electrode terminal to the negative electrode. The gas releasing portion is provided in the case member, is able to transfer a heat from the negative electrode lead and includes a zeolite-based porous material.
US09647244B2
An integration equipment for replacing an evaporation material and a use method thereof are provided. The integration equipment includes an evaporation chamber region, a material replacing chamber region, a valve door disposed between the evaporation chamber region and the material replacing chamber region, and for separating the above two regions, a substrate disposed inside the evaporation chamber region, and a material feeding door disposed at a side of the material replacing chamber region away from the valve door. Each of the evaporation chamber region and the material replacing chamber region includes a carrying platform, multiple evaporation sources disposed on the carrying platform, multiple exchanging devices for fixing and delivering the multiple evaporation sources, an independent vacuum-pumping device, and a heating device disposed inside the carrying platform. The equipment is capable of replacing and preheating an evaporation material without breaking vacuum of the evaporation chamber region to increase production efficiency.
US09647243B2
A display apparatus includes a pixel part disposed in a display area of a base substrate, including a switching element connected to a signal line, a pixel electrode connected to the switching element and a common electrode that overlaps the pixel electrode, a plurality of fan-out lines disposed in a peripheral area of the base substrate that are connected to the signal line of the display area, a plurality of pads disposed in the peripheral area of the base substrate that are respectively connected to end portions of the fan-out lines, an organic layer that covers the switching element of the display area and that extends from the display area to a portion of the fan-out lines, and an electrode pattern that overlaps the fan-out lines in a boundary portion of the organic layer.
US09647239B2
The invention relates to an electroluminescent device (10) comprising a layer system with a substrate (40) and on top of the substrate (40) a substrate electrode (20), a counter electrode (30) and an electroluminescent layer stack with at least one organic electroluminescent layer (50) arranged between the substrate electrode (20) and the counter electrode (30), characterized in that at least one optical transparent outcoupling body (71) is provided on top of the substrate electrode (20) to increase the outcoupling of light generated by the at least one organic electroluminescent layer (50) at least partly covering the optical transparent outcoupling body (71). The invention further relates to a method to manufacture such a device.
US09647231B2
Disclosed is a method for the production of an organic light emitting device of the OLED type, the method including the following sequences of steps: a step of forming a stack of layers on a substrate; the stack including, successively and in the following order, a first electrode, an organic layer and a second electrode; a step of positioning a cover; a step of forming a connection pad. The method also includes: a step of fixing a first end of at least one elongated electrical connection member to an area of the connection pad covering a portion of the second face of the cover and a step of forming a layer of resist, the layer of resist being so configured as to preserve an electrical access to a second end of the elongated electrical connection member above the layer of resist.
US09647221B2
Organic electronic devices comprising a covalently bonded organic/inorganic composite layer. The composite layer may be formed by the reaction of a metal alkoxide with a charge transport compound having one or more hydroxyl groups. Examples of metal alkoxides that can be used include vanadium alkoxides, molybdenum alkoxides, titanium alkoxides, or silicon alkoxides. This composite layer can be used for any of the various charge conducting layers in an organic electronic device, including the hole injection layer.
US09647220B2
An organic electroluminescence multicolor light-emitting apparatus including: a substrate; and a first light-emitting device and a second light-emitting device being arranged in parallel relative to the surface of the substrate; wherein the first light-emitting device includes, between an anode and a cathode, a first organic layer, a second organic layer and a third organic layer in this sequence from the anode side in a direction perpendicular to the surface of the substrate, the second light-emitting device includes, between an anode and a cathode, a second organic layer and a third organic layer in this sequence from the anode side in a direction perpendicular to the surface of the substrate, the first organic layer includes a first emitting dopant, the third organic layer includes a second emitting dopant, and the second organic layers independently comprise any one of compounds represented by the following formulas (1) to (6).
US09647219B1
Provided are nitrogen-doped carbon quantum dots as pyrolysis product of fumaronitrile. The carbon quantum dots may be formed in such a manner that nitrogen may be doped in an amount of 3-10 wt % based on the total weight of the carbon quantum dots with no need for a separate doping process. As a result, the carbon quantum dots have excellent properties, such as optical property, electroconductivity and thermal safety, and thus may be useful for photocatalysts or organic solar cells, or the like.
US09647214B2
An organic electroluminescent element using a compound represented by the following general formula (I) emits dark blue light and has a high effect of inhibition of voltage during high-luminance driving: wherein R1 to R6; E1 and E2; X1 and X2; and A1 to A8 are as defined herein.
US09647207B2
A resistive random access memory (RRAM) cell with a high κ layer based on a group-V oxide and hafnium oxide is provided. The RRAM cell includes a bottom electrode layer, a group-V oxide layer arranged over the bottom electrode layer, and a hafnium oxide based layer arranged over and abutting the group-V oxide layer. The RRAM cell further includes a capping layer arranged over and abutting the hafnium oxide based layer, and a top electrode layer arranged over the capping layer. A method for manufacturing the RRAM cell is also provided.
US09647204B2
Magnetic memory devices having an antiferromagnetic reference layer based on Co and Ir are provided. In one aspect, a magnetic memory device includes a reference magnetic layer having multiple Co-containing layers oriented in a stack, wherein adjacent Co-containing layers in the stack are separated by an Ir-containing layer such that the adjacent Co-containing layers in the stack are anti-parallel coupled by the Ir-containing layer therebetween; and a free magnetic layer separated from the reference magnetic layer by a barrier layer. A method of writing data to a magnetic random access memory device having at least one of the present magnetic memory cells is also provided.
US09647199B2
In a method of manufacturing a piezoelectric device, during an isolation formation step, a supporting substrate has a piezoelectric thin film formed on its front with a compressive stress film present on its back. The compressive stress film compresses the surface on a piezoelectric single crystal substrate side of the supporting substrate, and the piezoelectric thin film compresses the back of the supporting substrate, which is opposite to the surface on the piezoelectric single crystal substrate side. Thus, the compressive stress produced by the compressive stress film and that produced by the piezoelectric thin film are balanced in the supporting substrate, which causes the supporting substrate to be free of warpage and remain flat. A driving force that induces isolation in the isolation formation step is gasification of the implanted ionized element rather than the compressive stress to the isolation plane produced by the piezoelectric thin film.
US09647195B2
Piezoelectric micromachined ultrasonic transducer (pMUT) arrays and techniques for frequency shaping in pMUT arrays are described, for example to achieve both high frequency and low frequency operation in a same device. The ability to operate at both high and low frequencies may be tuned during use of the device to adaptively adjust for optimal resolution at a particular penetration depth of interest. In embodiments, various sizes of piezoelectric membranes are fabricated for tuning resonance frequency across the membranes. The variously sized piezoelectric membranes are lumped together by two or more separate electrode rails, enabling independent addressing between the two or more subgroups of sized transducer elements. Signal processing of the drive and/or response signals generated and/or received from each of the two or more electrode rails may achieve a variety of operative modes for the device, such as a near field mode, a far field mode, and an ultra wide bandwidth mode.
US09647192B2
A solar concentrator assembly includes a tripod, a base, a reflective dish, a receptacle, and a thermoelectric module or a heat transfer module. The tripod includes legs and a top tripod connector coupled to top portions thereof. The base includes a rod coupled to the tripod; a bottom support structure coupled to the rod; a top support structure coupled to the bottom support structure; an extension coupled to the bottom support structure and the top support structure; and a cap with recesses mounted to the top support structure. The reflective dish includes support rods received within the recesses; a pliable material forms panels, wherein the support rods are inserted into seams between the panels; and a reflective material disposed on the pliable material. The receptacle is connected to the base and disposed within the reflective dish. The thermoelectric module or the heat transfer module is partially disposed within the receptacle.
US09647191B2
An improved method and apparatus for thermal-to-electric conversion involving relatively hot and cold juxtaposed surfaces separated by a small vacuum gap wherein the cold surface provides an array of single charge carrier converter elements along the surface and the hot surface transfers excitation energy to the opposing cold surface across the gap through Coulomb electrostatic coupling interaction.
US09647190B2
A light emitting apparatus includes a package and a first light emitting device. The package has a package bottom surface and defining recessed portion having a recessed portion bottom surface therein. The package includes a first leadframe, a second leadframe and resin portion. Each of the first and second leadframes has a leadframe upper surface which is partially exposed at the recessed portion bottom surface and a leadframe bottom surface exposed at the package bottom surface. The first light emitting device is mounted in the recessed portion. The first and second leadframes are spaced apart each other via an separation area having a bending portion and a liner portion connected to the bending portion and extended substantially straight along a boundary line between the first leadframe main body and the first leadframe extension portion at the package bottom surface.
US09647187B1
A two-dimensional phased array beam former comprising at least first and second chips having each top and bottom surfaces, the bottom surface of the first chip being attached to the top surface of the second chip; the first and second chips having each an emitter side surface, the emitter side surfaces of the first and second chips facing a same direction and comprising each a plurality of emitters; wherein each of said first and second chips comprises at least one conductive post extending between said top and bottom surfaces; the at least one conductive post of the first chip being vertically aligned with and connected to the at least one conductive post of the second chip.
US09647177B2
The present disclosure is to provide an optoelectronic device. The optoelectronic device comprises a heat dispersion substrate; an insulative protection layer on the heat dispersion substrate, wherein the insulative protection layer comprises AlInGaN series material; and an optoelectronic unit comprising an epitaxial structure comprising multiple layers on the insulative protection layer, wherein at least one layer of the epitaxial structure comprises III-V group material devoid of nitride.
US09647173B2
A light-emitting device comprises a first conductive type semiconductor layer; a second conductive type semiconductor layer under the first conductive type semiconductor layer; an active layer between the first conductive type semiconductor layer and the second conductive type semiconductor layer; a nonconductive semiconductor layer on the first conductive type semiconductor layer and including a light extraction structure formed in the nonconductive semiconductor layer; a recess disposed from the nonconductive semiconductor layer to an upper portion of the first conductive type semiconductor layer; a first electrode layer on the upper portion of the first conductive type semiconductor layer; a second electrode layer under the second conductive type semiconductor layer.
US09647158B2
Photovoltaic sub-cell interconnect systems and methods are provided. In one embodiment, a photovoltaic device comprises a thin film stack of layers deposited upon a substrate, wherein the thin film stack layers are subdivided into a plurality of sub-cells interconnected in series by a plurality of electrical interconnection structures; and wherein the plurality of electrical interconnection structures each comprise no more than two scribes that penetrate into the thin film stack layers.
US09647156B1
A layered OP material is provided that comprises an OPGaAs template, and a layer of GaP on the OPGaAs template. The OPGaAs template comprises a patterned layer of GaAs having alternating features of inverted crystallographic polarity of GaAs. The patterned layer of GaAs comprises a first feature comprising a first crystallographic polarity form of GaAs having a first dimension, and a second feature comprising a second crystallographic polarity form of GaAs having a second dimension. The layer of GaP on the patterned layer of GaAs comprises alternating regions of inverted crystallographic polarity that generally correspond to their underlying first and second features of the patterned layer of GaAs. Additionally, each of the alternating regions of inverted crystallographic polarity of GaP are present at about 100 micron thickness or more. A method of forming the OPGaP is also provided.
US09647139B2
A semiconductor device including a gate structure present on at least two suspended channel structures, and a composite spacer present on sidewalls of the gate structure. The composite spacer may include a cladding spacer present along a cap portion of the gate structure, and an inner spacer along the channel portion of the gate structure between adjacent channel semiconductor layers of the suspended channel structures. The inner spacer may include a crescent shape with a substantially central seam.
US09647137B2
An object is to control composition and a defect of an oxide semiconductor, another object is to increase a field effect mobility of a thin film transistor and to obtain a sufficient on-off ratio with a reduced off current. A solution is to employ an oxide semiconductor whose composition is represented by InMO3(ZnO)m, where M is one or a plurality of elements selected from Ga, Fe, Ni, Mn, Co, and Al, and m is preferably a non-integer number of greater than 0 and less than 1. The concentration of Zn is lower than the concentrations of In and M. The oxide semiconductor has an amorphous structure. Oxide and nitride layers can be provided to prevent pollution and degradation of the oxide semiconductor.
US09647136B2
A Thin Film Transistor (TFT) includes a substrate, a semiconductor layer disposed on the substrate a first source electrode and a first drain electrode spaced apart from each other on the semiconductor layer, a channel area disposed in the semiconductor layer between the first source electrode and the first drain electrode, an etching prevention layer disposed on the channel area, the first source electrode, and the first drain electrode and a second source electrode in contact with the first source electrode, and a second drain electrode in contact with the first drain electrode.
US09647134B2
According to one embodiment, a thin-film transistor comprises an oxide semiconductor layer formed on a part of a substrate, a first gate insulator film of a silicon dioxide film formed on the oxide semiconductor layer and by the CVD method with a silane-based source gas, a second gate insulator film of a silicon dioxide film formed on the first gate insulator film by the CVD method with a TEOS source gas, and a gate electrode formed on the second gate insulator film.
US09647132B2
A semiconductor device that can measure a minute current. The semiconductor device includes a first transistor, a second transistor, a node, and a capacitor. The first transistor includes an oxide semiconductor in a channel formation region. The node is electrically connected to a gate of the second transistor and a first terminal of the capacitor. The node is brought into an electrically floating state by turning off the first transistor after a potential V0 is supplied. Change in a potential VFN of the node over time is expressed by Formula (1). In Formula (1), t is elapsed time after the node is brought into the electrically floating state, τ is a constant with a unit of time, and β is a constant greater than or equal to 0.4 and less than or equal to 0.6. V FN ( t ) = V 0 × ⅇ - ( t τ ) β ( 1 )
US09647124B2
Semiconductor devices with graphene nanoribbons and methods of manufacture are disclosed. The method includes forming at least one layer of Si material on a substrate. The method further includes forming at least one layer of carbon based material adjacent to the at least one layer of Si. The method further includes patterning at least one of the at least one layer of Si material and the at least one layer of carbon based material. The method further includes forming graphene on the patterned carbon based material.
US09647123B1
A semiconductor structure including vertical transistors is provided in which a sigma shaped source/drain extension region is formed between a top faceted surface of a first region of an epitaxial semiconductor channel material and a bottom faceted surface of a second region of the epitaxial semiconductor channel material. The sigma shaped source/drain extension region is formed after formation of a functional gate structure on each side of an epitaxial semiconductor channel material by first removing a sacrificial bottom spacer layer of a bottom spacer material stack, performing a sigma etch on an exposed lower portion of the epitaxial semiconductor channel material to provide the first region of epitaxial semiconductor channel material and the second region of the epitaxial semiconductor channel material, and then epitaxially growing the sigma shaped source/drain extension region from the faceted surfaces of the first and second regions of epitaxial semiconductor channel material.
US09647117B2
A method comprises forming a fin structure over a substrate, wherein the fin structure comprises a channel connected between a drain region and a source region, depositing a semiconductor layer in an amorphous state over the drain region and the source region at a first temperature and performing a solid phase epitaxial regrowth process on the semiconductor layer at a second temperature, wherein the second temperature is higher than the first temperature.
US09647112B1
A method of forming a strained vertical p-type field effect transistor, including forming a counter-doped layer at a surface of a substrate, forming a source/drain layer on the counter-doped layer, forming one or more vertical fins on the source/drain layer, removing a portion of the source/drain layer to form one or more bottom source/drains below each of the one or more vertical fins, reacting an exposed portion of each of the one or more bottom source/drains with a reactant to form a disposable layer on opposite sides of each bottom source/drain and a condensation layer between the two adjacent disposable layers, and removing the disposable layers.
US09647104B2
A Group III-nitride-based enhancement mode transistor having a heterojunction fin structure and a corresponding semiconductor device are described.
US09647102B2
A field effect transistor includes a substrate; a first semiconductor layer, disposed over the substrate; a second semiconductor layer, disposed over the first semiconductor layer, wherein an interface between the first semiconductor layer and the second semiconductor layer has a two-dimensional electron gas; a p+ III-V semiconductor layer, disposed over the second semiconductor layer; and a depolarization layer, disposed between the second semiconductor layer and the p+ III-V semiconductor layer, wherein the depolarization layer includes a metal oxide layer.
US09647086B2
A method of performing an early PTS implant and forming a buffer layer under a bulk or fin channel to control doping in the channel and the resulting bulk or fin device are provided. Embodiments include forming a recess in a substrate; forming a PTS layer below a bottom surface of the recess; forming a buffer layer on the bottom surface and on side surfaces of the recess; forming a channel layer on and adjacent to the buffer layer; and annealing the channel, buffer, and PTS layers.
US09647082B2
A diode includes a semiconductor substrate having a surface; a first contact region disposed at the surface of the semiconductor substrate and having a first conductivity type; and a second contact region disposed at the surface, laterally spaced from the first contact region, and having a second conductivity type. The diode also includes a buried region disposed in the semiconductor substrate vertically adjacent to the first contact region, having the second conductivity type, and electrically connected with the second contact region; and an isolation region disposed at the surface between the first and second contact regions. The diode also includes a separation region disposed at the surface between the first contact region and the isolation region, the separation region formed from a portion of a first well region disposed in the semiconductor substrate that extends to the surface.
US09647080B2
A Schottky device includes a barrier height adjustment layer in a portion of a semiconductor material. In accordance with an embodiment, the Schottky device is formed from a semiconductor material of a first conductivity type which has a barrier height adjustment layer of a second conductivity type that extends from a first major surface of the semiconductor material into the semiconductor material a distance that is less than a zero bias depletion boundary. A Schottky contact is formed in contact with the doped layer.
US09647072B2
A silicon carbide semiconductor device has a silicon carbide substrate, a gate insulating film, and a gate electrode. Silicon carbide substrate includes a first impurity region having a first conductivity type, a well region being in contact with the first impurity region and having a second conductivity type which is different from the first conductivity type, and a second impurity region separated from the first impurity region by the well region and having the first conductivity type. The gate insulating film is in contact with the first impurity region and the well region. The gate electrode is in contact with the gate insulating film and is arranged opposite to the well region with respect to the gate insulating film. A specific on-resistance at a voltage which is half a gate driving voltage applied to the gate electrode is smaller than twice the specific on-resistance at the gate driving voltage.
US09647071B2
FinFETs and methods of forming finFETs are described. According to some embodiments, a structure includes a channel region, first and second source/drain regions, a dielectric layer, and a gate electrode. The channel region includes semiconductor layers above a substrate. Each of the semiconductor layers is separated from neighboring ones of the semiconductor layers, and each of the semiconductor layers has first and second sidewalls. The first and second sidewalls are aligned along a first and second plane, respectively, extending perpendicularly to the substrate. The first and second source/drain regions are disposed on opposite sides of the channel region. The semiconductor layers extend from the first source/drain region to the second source/drain region. The dielectric layer contacts the first and second sidewalls of the semiconductor layers, and the dielectric layer extends into a region between the first plane and the second plane. The gate electrode is over the dielectric layer.
US09647067B1
Present embodiments provide for a FinFET and fabrication method thereof. The fabrication method includes two selective etching processes to form the channel. The FinFET includes a substrate, a shallow trench isolation (STI) layer, a buffer layer, an III-V group material, a high-K dielectric layer and a conductor material. The STI is formed on the substrate with a trench. The buffer layer is formed on the substrate in the trench. The III-V group material is formed on the buffer layer in vertical stacked bowl shape. The high-K dielectric layer is formed on the STI layer and surrounding the III-V group material. The conductor material is formed surrounding the high-K dielectric layer as a gate electrode.
US09647064B2
A semiconductor device may include the following elements: a first n-type region; a second n-type region; a p-type region, which directly contacts each of the first n-type region and the second n-type region; a first p-type portion, which directly contacts the first n-type region; a first n-type portion, which directly contacts each of the first n-type region and the p-type region; a first electrode, which is electrically connected to each of the first p-type portion and the first n-type portion; a second p-type portion, which directly contacts the second n-type region; a second n-type portion, which directly contacts each of the second n-type region and the p-type region; and a second electrode, which is electrically connected to each of the second p-type portion and the second n-type portion.
US09647058B2
A diode having excellent switching characteristics is provided. A diode includes a silicon carbide substrate, a stop layer, a drift layer, a guard ring, a Schottky electrode, an ohmic electrode, and a surface protecting film. At a measurement temperature of 25° C., a product R•Q of a forward ON resistance R of the diode and response charges Q of the diode satisfies relation of R•Q≦0.24×Vblocking2. The ON resistance R is found from forward current-voltage characteristics of the diode. A reverse blocking voltage Vblocking is defined as a reverse voltage which produces breakdown of the diode. The response charges Q are found by integrating a capacitance (C) obtained in reverse capacitance-voltage characteristics of the diode in a range from 0 V to Vblocking.
US09647056B2
Semiconductor devices are provided. Each of the semiconductor devices may include a plurality of electrodes. Moreover, each of the semiconductor devices may include a supporting pattern connected to sidewalls of the plurality of electrodes. Related methods of forming semiconductor devices are also provided. For example, the methods may include forming the supporting pattern before forming the plurality of electrodes.
US09647048B2
A display may have an array of organic light-emitting diode display pixels. Each display pixel may have a light-emitting diode that emits light under control of a thin-film drive transistor. Each display pixel may have thin-film transistors and capacitor structures that form a circuit for compensating the drive transistor for threshold voltage variations. The capacitor structures may be formed from interleaved stacked conductive plates. The conductive plates may be formed from layers of material that are used in forming the drive transistor and other thin-film transistors such as a semiconductor layer, a first metal layer, a second metal layer, a third metal layer, and interposed dielectric layers.
US09647045B2
A transparent display substrate, a transparent display device, and a method of manufacturing a transparent display device, the substrate including a base substrate including a pixel area and a transmission area; a pixel circuit on the pixel area of the base substrate; an insulation layer covering the pixel circuit on the base substrate; a pixel electrode selectively disposed on the pixel area of the base substrate, the pixel electrode being electrically connected to the pixel circuit at least partially through the insulation layer; and a transmitting layer structure selectively disposed on the transmission area of the base substrate, the transmitting layer structure including at least an inorganic material, the inorganic material consisting essentially of silicon oxynitride.
US09647039B1
An array substrate includes a plurality of first pixel-unit columns and a plurality of second pixel-unit columns repeatedly alternating with each other along a first direction. The first pixel-unit column includes a plurality of first pixel-unit groups and a plurality of second pixel-unit groups repeatedly alternating with each other along a second direction. The second pixel-unit column includes a plurality of third pixel-unit groups and a plurality of fourth pixel-unit groups repeatedly alternating with each other along the second direction. Each of the first pixel-unit group, the second pixel-unit group, the third pixel-unit group, and the fourth pixel-unit group includes a plurality of sub-pixels arranged into a matrix. The first pixel-unit group and the second pixel-unit group have same quantities of rows and columns in one matrix. The third pixel-unit group and the fourth pixel-unit group have same quantities of rows and columns in one matrix.
US09647036B2
Resistive RAM (RRAM) devices having increased uniformity and related manufacturing methods are described. Greater uniformity of performance across an entire chip that includes larger numbers of RRAM cells can be achieved by uniformly creating enhanced channels in the switching layers through the use of radiation damage. The radiation, according to various described embodiments, can be in the form of ions, electromagnetic photons, neutral particles, electrons, and ultrasound.
US09647034B2
According to one embodiment, a magnetoresistive memory device includes a stacked layer structure includes a first magnetic layer, a second magnetic layer, and a nonmagnetic layer between the first magnetic layer and the second magnetic layer, and a third magnetic layer provided on the first magnetic layer, which is opposite the nonmagnetic layer. The third magnetic layer includes a first magnetic material portion and a second magnetic material portion provided between the stacked layer structure and the first magnetic material portion. The saturation magnetization of the second magnetic material portion is smaller than that of the first magnetic material portion.
US09647032B2
The present invention is directed to a spin-orbitronics device including a magnetic comparison layer structure having a pseudo-invariable magnetization direction; a magnetic free layer structure whose variable magnetization direction can be switched by a switching current passing between the magnetic comparison layer structure and the magnetic free layer structure; an insulating tunnel junction layer interposed between the magnetic comparison layer structure and the magnetic free layer structure; and a non-magnetic transverse polarizing layer formed adjacent to the magnetic comparison layer structure. The pseudo-invariable magnetization direction of the magnetic comparison layer structure may be switched by passing a comparison current through the transverse polarizing layer along a direction that is substantially parallel to a layer plane of the transverse polarizing layer. The pseudo-invariable magnetization direction of the magnetic comparison layer structure is not switched by the switching current. The variable magnetization direction of the magnetic free layer structure is not switched by the comparison current.
US09647024B2
A solid state imaging device including: a pixel region that is formed on a light incidence side of a substrate and to which a plurality of pixels that include photoelectric conversion units is arranged; a peripheral circuit unit that is formed in a lower portion in the substrate depth direction of the pixel region and that includes an active element; and a light shielding member that is formed between the pixel region and the peripheral circuit unit and that shields the incidence of light, emitted from an active element, to the photoelectric conversion unit.
US09647022B2
The present disclosure relates to a method of forming a masking structure having a trench with a high aspect ratio, and an associated structure. In some embodiments, the method is performed by forming a first material over a substrate. The first material is selectively etched and a second material is formed onto the substrate at a position abutting sidewalls of the first material, resulting in a pillar of sacrificial material surrounded by a masking material. The pillar of sacrificial material is removed, resulting in a masking layer having a trench that extends into the masking material. Using the pillar of sacrificial material during formation of the trench allows the trench to have a high aspect ratio. For example, the sacrificial material allows for a plurality of masking layers to be iteratively formed to have laterally aligned openings that collectively form a trench extending through the masking layers.
US09647013B2
Embodiments of the invention provide a manufacturing method of a TFT array substrate. The TFT array substrate is formed to comprise a plurality of scanning lines, a plurality of data lines and a plurality of pixel units defined by intersecting these scanning lines and these data lines with each other. Each of the pixel units comprises a TFT and a pixel electrode. The TFT is formed to comprise a gate electrode, a gate insulating layer, a metal oxide semiconductor layer used as an active layer, an etch stopping layer formed on a portion of the surface of the metal oxide semiconductor layer, a source electrode and a drain electrode. In this method, the metal oxide semiconductor layer, the source electrode and the drain electrode are formed by a same patterning process.
US09647012B1
The present disclosure provides a TFT array substrate and manufacturing method thereof, forming a class structure of graphene-like two-dimensional layered semiconductor material on a base substrate and transferring the class structure of graphene-like two-dimensional layered semiconductor material on the designated position of the soft substrate to be a semiconductor active layer of the array substrate, therefore the semiconductor active layer of the TFT array substrate of the present disclosure uses a class structure of graphene-like two-dimensional layered semiconductor material to makes the array substrate having the advantage of higher electron mobility and mechanical property, excellent flexural resistance and reducing thickness of the substrate greatly.
US09647011B2
Provided is a thin film transistor array panel. The thin film transistor array panel includes: an insulation substrate including a display area with a plurality of pixels and a peripheral area around the display area; a gate line and a data line positioned in the display area of the insulation substrate; a first driving signal transfer line and a second driving signal transfer line positioned in the peripheral area of the insulation substrate; a first insulating layer positioned on the gate line and the data line; and a first photosensitive film positioned on the first driving signal transfer line and the second driving signal transfer line, in which the first photosensitive film is disposed only in the peripheral area.
US09647006B2
An active device of a pixel structure includes a semiconductor layer, an insulation layer covering the semiconductor layer, a gate electrode disposed on the insulation layer and electrically connected to a scan line, a protection layer covering the gate electrode, a source electrode and a drain electrode electrically connected to a source region and a drain region of the semiconductor layer. A channel region is disposed between the source region and the drain region. A source lightly doped region is disposed between the channel region and the source region. A drain lightly doped region is disposed between the channel region and the drain region. The light shielding pattern shields the source region, the drain region, the source lightly doped region and the drain lightly doped region. The light shielding pattern is overlapped with one side of the scan line and not overlapped with another side of the scan line.
US09647004B2
A display is disclosed. The display includes a display panel including pixel units in an image-displaying region. Each of the pixel units includes an AND gate and a pixel electrode electrically connected to an output terminal of the AND gate.
US09647002B2
An array substrate, a manufacture method thereof, and a display device with the array substrate are provided. The array substrate includes a substrate; a first gate scanning line; a first gate insulating layer; an active layer; a date scanning line; a pixel electrode formed in a pixel unit defined by the first gate scanning line and the data scanning line and over the data scanning line; and a second gate scanning line formed over or below the first gate scanning line. The second gate scanning line is substantially overlapped with the first gate scanning line in a stacking direction of the array substrate, and is arranged to be insulated from the first gate scanning line, the active layer, the data scanning line, and the pixel electrode, respectively.
US09646995B2
An FFS array substrate and a liquid crystal display device having the same are disclosed. The FFS array substrate includes a substrate, first metal layer, a first insulated layer, a second metal layer, a second insulated layer, a transparent electrode layer, a third insulated layer and a common-electrode layer. The common-electrode layer includes a common-electrode line having a low resistivity and a transparent common electrode. The FFS array substrate ensures the stability of electrical potential on common electrode and enhances the display effect of the liquid crystal display device.
US09646989B1
According to one embodiment, the plurality of contact vias extend in the stacking direction in the insulating layer, and are in contact with the end parts of the electrode layers. The plurality of second columnar parts extend in the stacking direction in the second stacked part, and include a plurality of second semiconductor bodies being different in length in the stacking direction.
US09646987B2
A semiconductor memory device according to an embodiment comprises a memory cell array including a stacked body and a semiconductor film, the stacked body including first layers stacked in a third direction, the semiconductor film having a side surface facing the first layers, and the semiconductor film extending in the third direction. The stacked body has a first portion and a second portion, the first portion having a first end which is an end in a first direction, and the first portion having the semiconductor film disposed therein, and a second portion being positioned on a side of the first end of the first portion, and the second portion having disposed therein a connecting line that contacts one of the first layers and extends in the third direction. The second portion has a projecting portion that projects further in the second direction than the first portion.
US09646979B2
To propose a non-volatile semiconductor memory device capable of injecting charge into a floating gate by source side injection even in a single-layer gate structure. In a non-volatile semiconductor memory device (1), while each of the memory transistor (MGA1) and the switch transistor (SGA) is made to have a single-layer gate structure, when a selected memory cell (3a) is turned on by applying a high voltage to one end of a memory transistor (MGA1) from a source line (SL) during data programming and applying a low voltage to one end of the switch transistor (SGA) from a bit line (BL1), a voltage drop occurs in a low-concentration impurity extension region (ET2) in the memory transistor (MGA1) between the source line (SL) and the bit line (BL1) to generate an intense electric field, and charge can be injected into the floating gate (FG) by source side injection using the intense electric field.
US09646977B2
A nonvolatile memory device includes a floating gate formed over a substrate; a contact plug formed on a first side of the floating gate and disposed parallel to the floating gate with a gap defined therebetween; and a spacer formed on a sidewall of the floating gate and filling the gap, wherein the contact plug and the floating gate have a sufficiently large overlapping area to enable the contact plug to operate as a control gate for the floating gate.
US09646975B2
An alternating stack of insulating layers and sacrificial material layers is formed over a substrate. Memory stack structures and a backside trench are formed through the alternating stack. Backside recesses are formed by removing the sacrificial material layers through the backside trench selective to the insulating layers. A cobalt portion is formed in each backside recess. A cobalt-semiconductor alloy portion can be formed on each cobalt portion by depositing a semiconductor material layer on the cobalt portions and reacting the semiconductor material with surface regions of the cobalt portions. A residual portion of the cobalt-semiconductor alloy formed above the alternating stack can be removed by an anisotropic etch or by a planarization process. A combination of a cobalt portion and a cobalt-semiconductor alloy portion within each backside recess can be employed as a word line of a three-dimensional memory device.
US09646967B2
Semiconductor devices are provided. The semiconductor device includes a first fin portion and a second fin portion arranged on a substrate and extended in a first direction, the first fin portion and the second fin portion being spaced apart from each other in the first direction, a field insulating layer between the first fin portion and the second fin portion and having an upper surface thereof lower than an upper surface of the first fin portion, a first metal gate extended in a second direction on the first fin portion and a silicon gate extended in the second direction on the field insulating layer and contacting the field insulating layer.
US09646963B1
Integrated circuits and methods of producing the same are provided. In an exemplary embodiment, an integrated circuit includes a substrate with an active layer overlying a buried insulator layer that in turn overlies a handle layer, where the active layer includes a first active well. A first source, a first drain, and a first channel are defined within the first active well, where the first channel is between the first source and the first drain. A first gate dielectric directly overlies the first channel, and a first gate directly overlies the first gate dielectric, where a first capacitor includes the first source, the first drain, the first channel, the first gate dielectric, and the first gate. A first handle well is defined within the handle layer directly underlying the first channel and the buried insulator layer.
US09646957B2
A light emitting diode (LED) packaging structure including a metal pad, an electric static discharge (ESD) protection element and an LED chip is provided. The metal pad has a first pad portion having a first top surface with a first concave configured thereon and a second pad portion having a second top surface with a second concave configured thereon. The ESD protection element has two first electrode portions respectively configured in the first concave and the second concave. The LED chip is located above the ESD protection element and has two second electrode portions respectively configured on the first top surface and the second top surface. A frame and a light emitting device having the frame that both include the above LED packaging structure are described herein. A light emitting device having an omni-directional light emitting effect is also described and includes the above LED packaging structure.
US09646950B2
A method for fabricating a semiconductor device is disclosed. A packaged semiconductor device is provided having copper ball bonds attached to aluminum pads. The packaged device is treated for at least one cycle at a temperature in the range from about 250° C. to 270° C. for a period of time in the range from about 20 s to 40 s.
US09646945B2
Provided is a semiconductor device having a high-reliability solder joint. The semiconductor device includes a high-temperature solder formed on a conductive pad. A low-temperature solder having a lower melting point than the high-temperature solder is formed on the high-temperature solder. A barrier layer is formed between the high-temperature solder and the low-temperature solder. An Sn content of the high-temperature solder is higher than that of the low-temperature solder.
US09646942B2
The mechanisms for forming bumps on packaged dies and package substrates reduce variation of bump heights across the packaged dies and packaged substrates. Bumps are designed to have different widths to counter the higher plating current near edge(s) of dies or substrates. Bump sizes can be divided into different zones depending on the bump patterns and densities across the packaged die and/or substrates. Smaller bumps near edges reduce the thickness of plated film(s), which would have been thicker due to being near the edges. As a result, the bump heights across the packaged dies and/or substrates can be kept significantly constant and chip package can be properly formed.
US09646941B2
A semiconductor device includes a carrier and a metallic structure including a metallic member, a pad and a via portion; wherein the metallic member is disposed inside the carrier, the pad is configured for receiving a solder bump and is disposed on a surface of the carrier, the via portion is configured for electrically connecting the metallic member and the pad, and the via portion is disposed proximal to an end of the pad. Further, a method of manufacturing a semiconductor device includes providing a carrier, removing a portion of the carrier for forming a via extending a surface of the carrier to an interior of the carrier, filling the via by a conductive material, and disposing the conductive material on the surface of the carrier, wherein the via is disposed proximal to an end portion of the conductive material.
US09646939B2
Various embodiments facilitate die protection for an integrated circuit. In one embodiment, a multilayer structure is formed in multiple levels and along the edges of a die to prevent and detect damages to the die. The multilayer structure includes a support layer, a first plurality of dielectric pillars overlying the support layer, a metal layer that fills spaces between the first plurality of dielectric pillars, an insulation layer overlying the first plurality of dielectric pillars and the metal layer, a second plurality of dielectric pillars overlying the insulation layer, and a second metal layer that fills spaces between the second plurality of dielectric pillars.
US09646937B2
A packaging structure for thin die is provided. The packaging structure has a substrate, a thin die, a strengthening layer and an encapsulation body. The thin die is disposed on and electrically connected with the substrate; the strengthening layer is disposed on the thin die; and the encapsulation body is formed on the substrate and covers both the thin die and the strengthening layer. The strengthening layer can bear pressure or stress during the formation of the encapsulation body to protect the thin die. A method for manufacturing the packaging structure for the thin die is further provided to manufacture the above packaging structure for the thin die.
US09646932B2
A method for forming an interconnect structure includes forming a dielectric material layer on a semiconductor substrate. The dielectric material layer is patterned to form a plurality of vias therein. A first metal layer is formed on the dielectric material layer, wherein the first metal layer fills the plurality of vias. The first metal layer is planarized so that the top thereof is co-planar with the top of the dielectric material layer to form a plurality of first metal features. A stop layer is formed on top of each of the plurality of first metal features, wherein the stop layer stops a subsequent etch from etching into the plurality of the first metal features.
US09646929B2
A wafer chip and a method of designing the chip is disclosed. A first fuse is formed having a first critical dimension and a second fuse having a second critical dimension are formed in a layer of the chip. A voltage may be applied to burn out at least one of the first fuse and the second fuse. The first critical dimension of the first fuse may result from applying a first mask to the layer and applying light having a first property to the mask. The second critical dimension of the second fuse may result from applying a second mask to the layer and applying light having a second property to the mask.
US09646928B2
A semiconductor arrangement and method of formation are provided. The semiconductor arrangement includes a metal trace under at least a first dielectric layer and a second dielectric layer. The metal trace is connected to a ball connection by a first via in the first dielectric layer and second via in the second dielectric layer. The metal trace is connected to a test pad at a connection point, where the connection point is under the first dielectric layer. The metal trace under at least the first dielectric layer and the second dielectric layer has increased stability and decreased susceptibility to cracking in least one of the ball connection, the connection point, the first via or the second via as compared to a metal trace that is not under at least a first dielectric layer and a second dielectric layer.
US09646926B2
A wiring substrate includes a first wiring layer including a first wiring part having a first wiring interval and a second wiring part having a second wiring interval wider than the first wiring interval, a metal plane layer formed on a portion of a first insulation layer formed on the first wiring layer, the first wiring part being located below the portion, a second insulation layer formed on the first insulation layer and the metal plane layer and having a first via hole and a second via hole, a second wiring layer formed on the second insulation layer and connected to the first wiring layer via a first via conductor formed in the first via hole, and a third wiring layer formed on the second insulation layer and connected to the metal plane layer via a second via conductor formed in the second via hole.
US09646925B2
An electronic device including a plurality of interconnects are orthogonally arranged in a grid pattern and evenly spaced by a first distance, the plurality of interconnects include: a first conductor pair with conductors arranged next to each other in a first direction, the first direction is oriented diagonally relative to the orthogonal grid pattern, a second conductor pair with conductors arranged next to each other in a second direction substantially perpendicular to the first direction, each conductor of the second conductor pair is spaced by the first distance from each signal conductor of the first conductor pair, and a third conductor pair with conductors arranged next to each other in a third direction substantially parallel to the first direction, each conductors of the third conductor pair is spaced by the first distance from one of the signal elements of the second conductor pair.
US09646924B2
Electrodes pads formed on device surfaces connect semiconductor chips to through electrodes of an intermediate substrate. A flow path is formed inside the intermediate substrate. A cooling medium flows through the flow path. Stoppers are attached to an inner surface of the flow path. The stoppers include metal abutment members, respectively. An end of each pipe abuts against the counterpart abutment member. Solder connects the pipes to the abutment members.
US09646923B2
Semiconductor devices, methods of manufacture thereof, and packaged semiconductor devices are disclosed. In one embodiment, a semiconductor device includes a substrate and conductive traces disposed over the substrate. Each of the conductive traces has a bottom region proximate the substrate and a top region opposite the bottom region. The top region has a first width and the bottom region has a second width. The second width is greater than the first width.
US09646918B2
A semiconductor device and method utilizing a dummy structure in association with a redistribution layer is provided. By providing the dummy structure adjacent to the redistribution layer, damage to the redistribution layer may be reduced from a patterning of an overlying passivation layer, such as by laser drilling. By reducing or eliminating the damage caused by the patterning, a more effective bond to an overlying structure, such as a package, may be achieved.
US09646913B2
A packaged assembly is disclosed, including thermal interface material dispensed on an organic package and methods of manufacturing. The method includes dispensing a thermal interface material (TIM) on an electronic assembly. The method further includes removing volatile species of the TIM, prior to lid placement on the electronic assembly. The method further includes placing the lid on the TIM, over the electronic assembly. The method further includes pressing the lid onto the electronic assembly.
US09646910B2
In at least some embodiments, an electronic package to maximize heat transfer comprises a plurality of components on a substrate. A stiffener plate is installed over the components. The stiffener plate has openings to expose the components. A plurality of individual integrated heat spreaders are installed within the openings over the components. A first thermal interface material layer (TIM1) is deposited between the components and the plurality of individual integrated heat spreaders. In at least some embodiments, the thickness of the TIM1 is minimized for the components.
US09646906B2
A method forming packaged semiconductor devices includes providing a completed semiconductor package having a die with bond pads coupled to package pins. Sensor precursors including an ink and a liquid carrier are additively printed directly on the die or package to provide precursors for electrodes and a sensing material between the sensor electrodes. Sintering or curing removes the liquid carrier such that an ink residue remains to provide the sensor electrodes and sensing material. The sensor electrodes electrically coupled to the pins or bond pads or the die includes a wireless coupling structure coupled to the bond pads and the method includes additively printing an ink then sintering or curing to form a complementary wireless coupling structure on the completed semiconductor package coupled to the sensor electrodes so that sensing signals sensed by the sensor are wirelessly transmitted to the bond pads after being received by the wireless coupling structure.
US09646904B2
The curable resin composition according to the present invention includes a polyorganosiloxane (A), a silsesquioxane (B), an isocyanurate compound (C), and a silane coupling agent (D). The polyorganosiloxane (A) is a polyorganosiloxane approximately devoid of aryl groups. The silsesquioxane (B) includes a ladder-like silsesquioxane. The curable resin composition has excellent heat resistance, transparency and flexibility. It offers superior reflow resistance and barrier properties to a corrosive gas.
US09646902B2
Among other things, one or more systems and techniques for scanner alignment sampling are provided. A set of scan region pairs are defined along a periphery of a sampling area associated with a semiconductor wafer. Alignment marks are formed within scan regions of the set of scan region pairs, but are not formed within other regions of the sampling area. In this way, scan region pairs are scanned to determine alignment factors for respective scan region pairs. An alignment for the sampling area, such as layers or masks used to form patterns onto such layers, is determined based upon alignment factors determined for the scan region pairs.
US09646899B2
An interconnect assembly includes a bond pad and an interconnect structure configured to electrically couple an electronic structure to the bond pad. The interconnect structure physically contacts areas of the bond pad that are located outside of a probe contact area that may have been damaged during testing. Insulating material covers the probe contact area and defines openings spaced apart from the probe contact area. The interconnect structure extends through the openings to contact the bond pad.
US09646898B2
Techniques herein include systems and methods that provide a spatially-controlled or pixel-based projection of light onto a substrate to tune various substrate properties. A given pixel-based image projected on to a substrate surface can be based on a substrate signature. The substrate signature can spatially represent non-uniformities across the surface of the substrate. Such non-uniformities can include energy, heat, critical dimensions, photolithographic exposure dosages, etc. Such pixel-based light projection can be used to tune various properties of substrates, including tuning of critical dimensions, heating uniformity, evaporative cooling, and generation of photo-sensitive agents. Combining such pixel-based light projection with photolithographic patterning processes and/or heating processes improves processing uniformity and decreases defectivity. Embodiments can include using a digital light processing (DLP) chip, grating light valve (GLV), or other grid-based micro projection technology.
US09646895B2
A method of manufacturing a semiconductor package includes providing a semiconductor chip including a circuit pattern, a connection pad, a first test pad and a second test pad, each of the connection pad, the first test pad and the second test pad respectively electrically connected to the circuit pattern, evaluating electrical characteristics of the semiconductor chip by applying a first test voltage to the first test pad and a second test voltage to the second test pad, the second test voltage being higher than the first test voltage, and electrically disconnecting the second test pad from the circuit pattern.
US09646885B1
A method for preventing epitaxial growth in a semiconductor device is described. The method cuts the fins of a FinFET structure to form a set of exposed fin ends. A plasma nitridation process is performed to the set of exposed fin ends. The plasma nitridation process forms a set of nitride layer covered fin ends. Dielectric material is deposited over the FinFET structure. The dielectric is etched to reveal sidewalls of the fins and the set of nitride layer covered fin ends. The nitride layer prevents epitaxial growth at the set of spacer covered fin ends.
US09646879B2
A depression filling method for filling a depression of a workpiece including a semiconductor substrate and an insulating film formed on the semiconductor substrate includes: forming an impurity-doped first semiconductor layer along a wall surface which defines the depression; forming, on the first semiconductor layer, a second semiconductor layer which is lower in impurity concentration than the first semiconductor layer and which is smaller in thickness than the first semiconductor layer; annealing the workpiece to form an epitaxial region at the bottom of the depression corresponding to crystals of the semiconductor substrate from the first semiconductor layer and the second semiconductor layer; and etching the first amorphous semiconductor region and the second amorphous semiconductor region.
US09646878B2
A method is disclosed for manufacturing integrated circuits, microelectronics, micro-electro-mechanical systems (MEMS), nano-electro-mechanical systems (NEMS), photonic, and any micro- and nano-fabricated devices and systems designs that allow these designs to be kept secure. The manufacturing of the devices in the substrates is performed in a traditional manner at a foundry that can be located anywhere in the world., The manufacturing at this foundry is stopped just before the fabrication of the first layer of electrical interconnects. At this stage, the semiconductor substrates with the devices, minus electrical interconnects, are sent back to the design organization (or their designated trusted foundry) to perform the fabrication of the electrical interconnects to complete the entire manufacturing process. Since the electrical interconnection wiring diagram is the critical component of the design, this de-coupling of the manufacturing allows the designs of the devices and systems to be kept secure and confidential.
US09646861B2
A heating plate for use in a substrate support is configured to provide temperature profile control of a substrate supported on the substrate support in a vacuum chamber of a substrate processing apparatus. The heating plate includes an independently controllable heater zones operable to tune a temperature profile on an upper surface of the heating plate. The heater zones are each powered by two or more power lines wherein each power line is electrically connected to a different group of the heater zones and each respective heater zone is electrically connected to a different pair of power lines.
US09646860B2
Alignment systems, and wafer bonding alignment systems and methods are disclosed. In some embodiments, an alignment system for a wafer bonding system includes means for monitoring an alignment of a first wafer and a second wafer, and means for adjusting a position of the second wafer. The alignment system includes means for feeding back a relative position of the first wafer and the second wafer to the means for adjusting the position of the second wafer before and during a bonding process for the first wafer and the second wafer.
US09646855B2
Semiconductor device including a metal carrier substrate. Above the carrier substrate a first semiconductor layer of Alx1Gay1Inz1N (x1+y1+z1=1, x1≧0, y1≧0, z1≧0) is formed. A second semiconductor layer of Alx2Gay2Inz2N (x2+y2+z2=1, x2>x1, y2≧0, z2≧0) is arranged on the first semiconductor layer and a gate region is arranged on the second semiconductor layer. The semiconductor device furthermore includes a source region and a drain region, wherein one of these regions is electrically coupled to the metal carrier substrate and includes a conductive region extending through the first semiconductor layer.
US09646853B1
A patterned, non-conductive substrate for an integrated circuit (IC) package has a die side configured to receive a die and a lead side opposite the die side. A pattern formed in the substrate defines openings (e.g., holes, steps, grooves, and/or cavities) that extend between the die side and the lead side of the substrate. In the IC package, the openings are filled with conductive material (e.g., solder) that supports electrical connections between bond pads on the die and leads formed from the conductive material. The substrate can be used to form a relatively inexpensive, quad flat no-lead (QFN) IC package without using a metal lead frame and without bond wires.
US09646851B2
A reconstituted wafer includes a rigid mass with a flat surface and a base surface disposed parallel planar to the flat surface. A plurality of dice are embedded in the rigid mass. The plurality of dice include terminals that are exposed through coplanar with the flat surface. A process of forming the reconstituted wafer includes removing some of the rigid mass to expose the terminals, while retaining the plurality of dice in the rigid mass. A process of forming an apparatus includes separating one apparatus from the reconstituted wafer.
US09646846B2
A method for producing a multilevel microelectronic structure includes formation of a first layer, production of at least one second layer at least partially covering the first layer, and production of at least one microelectronic pattern on or in the second layer. The second layer is formed so as to generate a mechanical stress in it, the first layer forms, for the second layer, a support preventing relaxation of the stress. After the production of at least one microelectronic pattern, the method includes at least elimination of at least part of the first layer, thus making it possible to relax at least part of the mechanical stress on the second layer so that at least a portion of the second layer covering the eliminated part of the first layer moves, and fixing the moved portion of the second layer to a structure part that has remained fixed.
US09646842B1
Method for chemical mechanical planarization is provided, which includes: forming a dielectric layer containing at least one opening, the dielectric layer is located on a substrate; epitaxially growing a germanium material within the at least one opening of the dielectric layer, the germanium material extending above a topmost surface of the dielectric layer; and planarizing the germanium material using at least one slurry composition to form coplanar surfaces of the germanium material and the dielectric layer, where a slurry composition of at least one slurry composition polishes the germanium material selective to the topmost surface of the dielectric layer, and includes an abrasive, at least one pH modulator, and an oxidizer, the at least one pH modulator including an acidic pH modulator, and lacking a basic pH modulator.
US09646840B2
A method for manufacturing a semiconductor device includes providing a substrate containing a front-end device and forming a dielectric layer on the substrate. The front-end device includes a first dummy gate in a first type metal gate transistor region, a second dummy gate in a second type metal gate transistor region, and a polysilicon gate in a polysilicon gate region. The method also includes removing a thickness of the first, second, and polysilicon gates and forming a protective layer on the polysilicon layer to protect the polysilicon layer during a CMP process, thereby improving the performance and yield of the semiconductor device.
US09646839B2
A method of forming an Ohmic contact including forming a Ta layer in a contact area of a barrier, forming a Ti layer on the first Ta layer, and forming an Al layer on the Ti layer, wherein the barrier layer comprises AlGaN having a 10% to 40% Al composition and a thickness in a range between 30 Å to 100 Å, and wherein the barrier layer is on a channel layer comprising GaN.
US09646837B2
An ion implantation method includes transporting ions to a wafer as an ion beam, causing the wafer to undergo wafer mechanical slow scanning and also causing the ion beam to undergo beam fast scanning or causing the wafer to undergo wafer mechanical fast scanning in a direction perpendicular to a wafer slow scanning direction, irradiating the wafer with the ion beam by using the wafer slow scanning in the wafer slow scanning direction and the beam fast scanning of the ion beam or the wafer fast scanning of the wafer in the direction perpendicular to the wafer slow scanning direction, measuring a two-dimensional beam shape of the ion beam before ion implantation into the wafer, and defining an implantation and irradiation region of the ion beam by using the measured two-dimensional beam shape to thereby regulate the implantation and irradiation region.
US09646834B2
There are prepared a semiconductor substrate having a first main surface and a second main surface, and an adhesive tape having a third main surface and a fourth main surface, the first main surface having a maximum diameter of not less than 100 mm. The semiconductor substrate fixed to the third main surface of the adhesive tape is placed in an accommodation chamber. The accommodation chamber is evacuated while maintaining a temperature of the adhesive tape at not less than 100° C. An electrode is formed on the second main surface after the step of reducing the temperature of the semiconductor substrate. The step of evacuating the accommodation chamber includes a step of evacuating the accommodation chamber while maintaining the temperature of the adhesive tape at not less than 100° C. with a space being provided between the fourth main surface of the adhesive tape and the substrate holding unit.
US09646828B2
A method is provided for fabricating a thin-film semiconductor device. The method includes providing a plurality of raw semiconductor materials. The raw semiconductor materials undergo a pre-reacting process to form a homogeneous compound semiconductor material. This pre-reaction typically includes processing above the liquidus temperature of the compound semiconductor. The compound semiconductor material is reduced to a particulate form and deposited onto a substrate to form a thin-film having a composition and atomic structure substantially the same as a composition and atomic structure of the compound semiconductor material.
US09646823B2
A semiconductor/dielectric interface having reduced interface trap density and a method of manufacturing the interface are disclosed. In an exemplary embodiment, the method of forming a semiconductor device includes receiving a substrate and forming a termination layer on a top surface of the substrate. The termination layer includes at least one of hydrogen, deuterium, or nitrogen. The method further includes depositing a dielectric layer on the termination layer such that the depositing of the dielectric layer does not disrupt the termination layer. The termination layer may be formed by a first deposition process that deposits a first material of the termination layer and a subsequent deposition process that introduces a second material of the termination layer into the first material. The termination layer may also be formed by a single deposition process that deposits both a first material and a second material of the termination layer.
US09646822B2
A method to form a semiconductor structure with an active region and a compatible dielectric layer is described. In one embodiment, a semiconductor structure has a dielectric layer comprised of an oxide of a first semiconductor material, wherein a second (and compositionally different) semiconductor material is formed between the dielectric layer and the first semiconductor material. In another embodiment, a portion of the second semiconductor material is replaced with a third semiconductor material in order to impart uniaxial strain to the lattice structure of the second semiconductor material.
US09646820B2
The present disclosure relates to the deposition of conductive titanium oxide films by atomic layer deposition processes. Amorphous doped titanium oxide films are deposited by ALD processes comprising titanium oxide deposition cycles and dopant oxide deposition cycles and are subsequently annealed to produce a conductive crystalline anatase film. Doped titanium oxide films may also be deposited by first depositing a doped titanium nitride thin film by ALD processes comprising titanium nitride deposition cycles and dopant nitride deposition cycles and subsequently oxidizing the nitride film to form a doped titanium oxide film. The doped titanium oxide films may be used, for example, in capacitor structures.
US09646817B2
In an embodiment, the present invention discloses a EUV cleaner system and process for cleaning a EUV carrier. The euv cleaner system comprises separate dirty and cleaned environments, separate cleaning chambers for different components of the double container carrier, gripper arms for picking and placing different components using a same robot handler, gripper arms for holding different components at different locations, horizontal spin cleaning and drying for outer container, hot water and hot air (70 C) cleaning process, vertical nozzles and rasterizing megasonic nozzles for cleaning inner container with hot air nozzles for drying, separate vacuum decontamination chambers for outgassing different components, for example, one for inner and one for outer container with high vacuum (e.g., <10−6 Torr) with purge gas, heaters and RGA sensors inside the vacuum chamber, purge gas assembling station, and purge gas loading and unloading station.
US09646813B2
A mass spectrometer is disclosed comprising a first quadrupole rod set mass filter, a collision cell, an ion mobility spectrometer or separator, an ion guide or collision cell arranged downstream of the ion mobility spectrometer or separator, a second quadrupole rod set mass filter and an ion detector.
US09646811B2
By utilizing the combination of a unique electronic ion injection control circuit in conjunction with a particularly designed drift cell construction, the instantly disclosed ion mobility spectrometer achieves increased levels of sensitivity, while achieving significant reductions in size and weight. The instant IMS is of a much simpler and easy to manufacture design, rugged and hermetically sealed, capable of operation at high temperatures to at least 250° C., and is uniquely sensitive, particularly to explosive chemicals.
US09646808B2
Methods and apparatus are described that use an array of two or more cold plasma jet ports oriented to converge at a treatment area. The use of an array permits greater tissue penetration by cold plasma treatments. This approach enables treatment of deeper infections of soft and hard tissues without surgical intervention. For example, this approach can treat sub-integumental infections, such as those common to joint replacements, without surgically opening the issues overlying the deeper infection.
US09646806B2
Provided are a plasma electrode device and a manufacturing method thereof. The plasma electrode device includes a first substrate including a first substrate main body having a first flow hole through which air flows and a first discharge electrode disposed on one surface of the first substrate main body and a second substrate disposed on one side of the first substrate, the second substrate including a second flow hole through which air flows and a second discharge electrode acting with the first substrate. The first substrate main body includes a ground electrode acting with the first or second discharge electrode to perform plasma discharge and a first insulator coupled to the ground electrode.
US09646801B2
In various embodiments, a multi-layer X-ray source target is provided having two or more layers of target material at different depths and different thicknesses. In one such embodiment the X-ray generating layers increase in thickness in relationship to their depth relative to the electron beam facing surface of the source target, such that X-ray generating layer further from this surface are thick than X-ray generating layers closer to the electron beam facing surface.
US09646793B2
Method and apparatus for reducing the minimum clearance needed between an electrical conductor and ground in switchgear and similar electrical isolation equipment provide a bus-connector having an extended toroidal shape that is designed to allow the size of the switchgear cabinet to be reduced while complying with industry-standard performance requirements. The toroidal shaped bus-connector has mostly or only smooth and rounded surfaces so there are no hard or sharp edges or corners from which electrical discharge from/to ground or other conductors may occur. The shaped bus-connector also has an elongated body that produces an offset connection resembling a “Z,” which allows power buses and breaker terminals that do not vertically line up to connect.
US09646786B1
The present invention relates to a Hall Principle-based LED lit mechanical keyboard switch comprising a keymodule, permanent magnet, housing, LED lamp, Hall switch, elastic strip, top cover and spring; the keymodule consists of a plunger and a slider, the plunger has a key on top and a first locating pole at bottom; the slider has magnet mounting slot on its side wall; a second locating pole is provided at the bottom center inside the housing, the second locating pole is provided with a guide hole at its center, and a LED lamp mounting hole is provided on one side in the housing; Hall switch mounting hole and plunger slideway are provided on the neighboring side next to the side of the housing on which LED lamp mounting hole is provided.
US09646771B2
Disclosed is a power storage element including a positive electrode current collector layer and a negative electrode current collector layer which are arranged on the same plane. The power storage element further includes a positive electrode active material layer over the positive electrode current collector layer and a negative electrode active material layer over the negative electrode current collector layer. An electrolyte layer in contact with at least the positive electrode active material layer and the negative electrode active material layer is provided. The electrolyte layer may be a solid electrolyte layer.
US09646766B2
The invention is directed to a process for making a dielectric ceramic film capacitor and the ceramic dielectric laminated capacitor formed therefrom, the dielectric ceramic film capacitors having increased dielectric breakdown strength. The invention increases breakdown strength by embedding a conductive oxide layer between electrode layers within the dielectric layer of the capacitors. The conductive oxide layer redistributes and dissipates charge, thus mitigating charge concentration and micro fractures formed within the dielectric by electric fields.
US09646765B2
The coil winding device includes a nozzle configured to feed a wire to wind the wire around the winding core to form a coil, a plurality of hook rods disposed in predetermined intervals around an end part of the winding core, the wire drawn out from an edge of the coil being configured to be hooked to each of the plurality of hook rods during a forming process of the coil, a winding core rotating mechanism configured to rotate the winding core together with the plurality of hook rods, a hook rod rotating mechanism configured to rotate the plurality of the hook rods, and a wire drawing-out mechanism configured to draw out the wire from the edge of the coil and hook the wire on the hook rods during the forming process of the coil.
US09646763B2
A contactless inductively coupled power transfer system is provided including multiple pairs of power transmitter and power receiver coils and a power management module for controlling the supply of power to transmitter coils or the power supplied by the power receiver module to loads. The design is particularly suited for use in a wind turbine to supply power to the nacelle. The transmitter coils may be driven in phase at the same frequency or at different frequencies selected to avoid interaction between transmitter coils and the power transmitter module. The transmitter and receiver coils may be arranged in a traditional slip ring type configuration with adjacent coil pairs are physically spaced apart to avoid cross coupling with adjacent transmitter and receiver coil pairs shielded from each other. The power transmitter module may employ Zero Voltage Switching (ZVS).
US09646760B2
The present invention provides a common mode choke coil that has a higher coupling factor than that of a conventional common mode choke coil and that is easy to be assembled. A common mode choke coil according to the present invention includes a first coil portion 51 and a second coil portion 52 that are connected to each other in series, and a third coil portion 53 and a fourth coil portion 54 that are connected to each other in series. The first coil portion 51 and the second coil portion 52 are respectively disposed in the first quadrant and the third quadrant of an orthogonal coordinate system and housed in a first bobbin 8a, and the third coil portion 53 and the fourth coil portion 54 are respectively disposed in the fourth quadrant and the second quadrant of the orthogonal coordinate system and housed in a second bobbin 8b. The first bobbin 8a and the second bobbin 8b are fitted to each other, and thereby adjacent case portions of the two bobbins are bonded to each other.
US09646752B2
A magnetic field distribution control apparatus includes a rod portion, a coil disposed at one side of an upper surface of the rod portion, and a ferrite movably disposed within the coil and configured to produce a magnetic field.
US09646749B2
The present invention proposes a method that can reduce the noise generated by a transformer core and the like when formed by laminations of a grain-oriented electrical steel sheet in which core loss has been reduced by a magnetic domain refinement process. In this steel sheet, linear distortion extending with an orientation in which an angle formed with a direction perpendicular to the rolling direction of the steel sheet is an angle of 30° or less is periodic in the direction of rolling of the steel sheet, core loss (W17/50) is 0.720 W/kg or less, and magnetic flux density (B8) is 1.930 T. The volume of the closure domain arising in the distortion part is 1.00-3.00% of the total magnetic domain volume within the steel sheet.
US09646748B2
A resistive voltage divider includes first and second resistors, which are electrically connected in series and are made of a resistive film material which is applied in the form of a trace onto an insulating substrate. The divider's voltage ratio has a value between ten and one million. To improve the accuracy of the voltage divider, the first and second resistors are made of the same resistive film material, have a trace length above a corresponding specific trace length, and have approximately the same trace width.
US09646743B2
Bushing covers adapted to surround a bushing to protect the bushing and bushing connections from damage, which can be installed at distance using an insulated pole.
US09646742B2
A method for cooling high temperature superconducting (HTS) cable comprising receiving a first flow of coolant at a first section of HTS cable and permitting the first flow of coolant to flow therethrough. The method also includes receiving a second flow of coolant at a second section of HTS cable and permitting the second flow of coolant to flow therethrough. The first section of HTS cable and said second section of HTS cable are coupled via a cable joint, the cable joint electrically connecting the first and second sections of HTS cable. The cable joint is in fluid communication with at least one refrigeration module. The cable joint includes at least one conduit configured to permit a third flow of coolant between the cable joint and the at least one refrigeration module through a coolant line separate from the first and second sections of HTS cable.
US09646733B2
A tracer wire product for use in detection of underground utility line or routes includes: a metallic wire configured to conduct an electrical signal for detection by an aboveground signal detector; a tin coating formed over the metallic wire; a non-fibrous insulating jacket of polyethylene over the tin coating; a hot melt adhesive at least partially over the polyethylene jacket; a high tenacity woven polyester strength element with water blocking fibers being formed over the hot melt adhesive and the polyethylene jacket; and, an abrasion resistant HDPE outer jacket formed over the high tenacity woven polyester strength element to form one of a circular or oval cross-sectional shape. Further, an apparatus and method for manufacturing the tracer wire product includes a source of a substantially flat polyester woven material; a source of a metal wire material; and an elongated forming tool including an input base into which the substantially flat polyester woven material is fed. The elongated forming tool also includes an outlet member downstream of the input base and including a restricted passage for receiving the metal wire material, and concurrently folding the substantially flat polyester woven material about the metal wire material.
US09646731B2
A direct-converting x-ray radiation detector is disclosed for detecting x-ray radiation, in particular for use in a CT system. In an embodiment, the detector includes a semiconductor material used for detecting the x-ray radiation; at least one collimator; and at least one radiation source, to irradiate the semiconductor material with additional radiation. In at least one embodiment, the at least one collimator includes at least one reflection layer on a side facing the semiconductor material, on which the additional radiation is reflected to the semiconductor material. In another embodiment, a CT system including the direct-converting x-ray radiation detector, and a method for detecting incident x-ray radiation via a direct-converting x-ray radiation detector, in particular for use in a CT system, are disclosed.
US09646723B2
A nuclear thermoacoustic device includes a housing defining an interior chamber and a portion of nuclear fuel disposed in the interior chamber. A stack is disposed in the interior chamber and has a hot end and a cold end. The stack is spaced from the portion of nuclear fuel with the hot end directed toward the portion of nuclear fuel. The stack and portion of nuclear fuel are positioned such that an acoustic standing wave is produced in the interior chamber. A frequency of the acoustic standing wave depends on a temperature in the interior chamber.
US09646720B2
Self-repair logic for stacked memory architecture. An embodiment of a memory device includes a memory stack having one or more memory die elements, including a first memory die element, and a system element coupled with the memory stack. The first memory die element includes multiple through silicon vias (TSVs), the TSVs including data TSVs and one or more spare TSVs, and self-repair logic to repair operation of a defective TSV of the plurality of data TSVs, the repair of operation of the defective TSV including utilization of the one or more spare TSVs.
US09646716B2
A circuit arrangement for detecting memory errors is provided. The circuit arrangement comprises a memory (11) and an error detection circuit (12). The circuit arrangement is designed to store a code word of an error detection code (C) or a code word that is inverted in a subset (M) of bits in the memory (11) at a memory location and to read out a data word from the memory (11) from the memory location. The error detection circuit (12) is designed, for the case where a control signal present assumes a first value, to indicate a memory error if the data word is not a code word of the error detection code (C). Furthermore, the error detection circuit (12) is designed, for the case where the control signal present assumes a second value, which is different from the first value, and the code word that is inverted in the subset (M) of bits was written to the memory location, to determine on the basis of the data word read out from the memory (11) whether a memory error is present if the code word that is inverted in the subset (M) of bits is not a code word of the error detection code (C).
US09646713B2
A radiation hardened memory cell includes an odd number of storage elements configured to redundantly store an input data logic signal. The storage elements include output lines for outputting respective logic signals having respective logic values. A logic combination network receives the respective logic signals and is configured to generate an output signal having a same logic value as a majority of the logic signals output from the storage elements. An exclusive logic sum circuit receives the respective logic signals output from the storage elements and is configured to produce a refresh of the logic data signal as stored in the storage elements when one of the logic signals output from the storage elements undergoes a logic value transition due to an error event.
US09646712B1
A method and circuit for implementing Electronic Fuse (eFuse) visual security of stored data using embedded dynamic random access memory (EDRAM), and a design structure on which the subject circuit resides are provided. The circuit includes EDRAM and eFuse circuitry having an initial state of a logical 0. The outputs of the eFuse and an EDRAM are connected through an exclusive OR (XOR) gate, enabling EDRAM random data to be known at wafer test and programming of the eFuse to provide any desired logical value out of the XORed data combination.
US09646709B2
Methods and systems are provided where non-volatile solid state memory may include selected memory cells coupled to a selected word line and proxy memory cells coupled to a proxy word line. The selected memory cells may be non-adjacent to the proxy memory cells and be selected for a read operation. A read proxy voltage may be applied to the proxy word line when data is read from the selected memory cells. A read disturb may be determined based on a difference between a predetermined value stored in the proxy memory cells and a value read from the proxy memory cells.
US09646691B2
A monolithic three-dimensional memory array is provided that includes global bit lines disposed above a substrate, each global bit line having a long axis, vertically-oriented bit lines disposed above the global bit lines, word lines disposed above the global bit lines, memory cells coupled between the vertically-oriented bit lines and the word lines, and vertically-oriented bit line select transistors coupled between the vertically-oriented bit lines and the global bit lines. Each vertically-oriented bit line select transistor has a width, a first control terminal and a second control terminal. The word lines and the vertically-oriented bit lines have a half-pitch, and the width of the vertically-oriented bit line select transistors is between about two times the half-pitch and about three times the half-pitch. Vertical bit lines disposed above adjacent global bit lines are offset from one another in a direction along the long axis of the global bit lines.
US09646689B2
Methods and systems to refresh a nonvolatile memory device, such as a phase change memory. In an embodiment, as a function of system state, a memory device performs either a first refresh of memory cells using a margined read reference level or a second refresh of error-corrected memory cells using a non-margined read reference level.
US09646688B2
A three-dimensional array adapted for memory elements that reversibly change a level of electrical conductance in response to a voltage difference being applied across them. Memory elements are formed across a plurality of planes positioned different distances above a semiconductor substrate. Bit lines to which the memory elements of all planes are connected are oriented vertically from the substrate and through the plurality of planes.
US09646687B2
Provided are a resistive memory device and an operating method for the resistive memory device. The operating method includes detecting a write cycle, determining whether or not to perform a recovery operation by comparing the detected write cycle with a first reference value, and upon determining to perform the recovery operation, performing the recovery operation on target memory cells of the memory cell array.
US09646675B1
Disclosed are a data training device and a semiconductor device. The data training device includes a write controller configured to align write data, a read controller configured to latch data applied from the write controller and sequentially output the latched data, and an offset compensator configured to adjust a current flowing through a power supply voltage application terminal and a ground voltage application terminal in correspondence to a write signal and a read signal, thereby compensating for an offset in the write controller and the read controller.
US09646672B1
A memory device includes a plurality of memory cells; a nonvolatile memory block suitable for simultaneously sensing one or more programmed weak addresses, and sequentially transmitting the sensed weak addresses; a weak address control block suitable for latching the weak addresses transmitted from the nonvolatile memory block, and outputting sequentially the latched weak addresses in a weak refresh operation; and a refresh control block suitable for controlling the memory cells corresponding to the counting address to be refreshed, in a normal refresh operation, and controlling the memory cells corresponding to the weak address to be refreshed, in the weak refresh operation.
US09646670B2
Methods and apparatus relating to spin-orbit-torque magnetoresistive random access memory with voltage-controlled anisotropy are disclosed. In an example, disclosed is a three-terminal magnetic tunnel junction (MTJ) storage element that is programmed via a combination of voltage-controlled magnetic anisotropy (VCMA) and spin-orbit torque (SOT) techniques. Also disclosed is a memory controller configured to program the three-terminal MTJ storage element via VCMA and SOT techniques. The disclosed devices improve efficiency over conventional devices by using less write energy, while having a design that is simpler and more scalable than conventional devices. The disclosed devices also have increased thermal stability without increasing required switching current, as critical switching current between states is essentially the same.
US09646637B1
A thin-film piezoelectric material element includes a laminated structure part having a lower electrode film, a piezoelectric material film laminated on the lower electrode film and an upper electrode film laminated on the piezoelectric material film. The thin-film piezoelectric material element includes a surface layer insulating film disposed on side surfaces of the laminated structure part and a top surface of the upper electrode film, and has a through hole formed on a top disposed part disposed on the top surface. The surface layer insulating film has a long-side disposed part disposed outside than the top disposed part, the long-side disposed part has a long-side width, along with the long-side direction, formed shorter than the through hole.
US09646617B2
The invention provides a method and device of extracting a sound source acoustic image body in 3D space. The method includes: determining a spatial position of a sound source acoustic image and determining a speaker beside the spatial position where the sound source acoustic image is located according to the determined spatial position (ρ, μ, η) of the sound source acoustic image; calculating a correlation of signals of all sound tracks of the selected speaker in the horizontal direction and the vertical direction, and obtaining and storing a parameter set {ICH, ICv, Min{ICH, ICv}} of a acoustic image body, wherein the Min{ICH, ICv} is a smaller value between ICH and ICV. The expression parameters of the acoustic image body obtained in the present invention are used for providing technical support for accurately restoring the size of the sound source acoustic image in a 3D audio live system, which solves the technical problem that the restored acoustic image in a 3D audio is excessively narrow at present.
US09646616B2
In accordance with an embodiment, a method of generating an encoded audio signal, the method includes estimating a time-frequency energy of an input audio signal from a time-frequency filter bank, computing a global variance of the time-frequency energy, determining a post-processing method according to the global variance, and transmitting an encoded representation of the input audio signal along with an indication of the determined post-processing method.
US09646610B2
An apparatus, method, and computer program for initiating a word spotting algorithm (220) on one or more wireless communication devices in a first power mode to detect a keyword data sequence (224) embedded within a sampled audio signal (222). In response to detecting the keyword data sequence (226), the word spotting algorithm is terminated and a plurality of identification algorithms (230) consisting of speech, voice, image recognition and a predetermined isolation time criterion are initiated on the one or more wireless communication devices operating in a second power mode to detect the presence of identification data (240). If identification data is detected on a particular wireless communication device it is activated to accept speech and/or voice commands (242). On the other hand, if identification data is not detected, the plurality of identification algorithms are terminated, and the word spotting algorithm is reinitiated on the one or more wireless communication devices that are then operating in the first power mode (244).
US09646608B2
A voice recognition apparatus includes a voice recognizer configured to recognize user utterance, a storage unit configured to store a plurality of tokens, a token network generator configured to generate a plurality of recognition tokens from the recognized user utterance, search for a similar token similar to each of the recognition tokens and a peripheral token having a history used with the recognition token among the plurality of tokens stored in the storage unit, and generate a token network using the recognition token, the similar token, and the peripheral token, and a processor configured to control the token network generator to generate the token network in response to the user utterance being recognized through the voice recognizer, calculate a transition probability between the tokens constituting the token network, and generate text data for corrected user utterance using the calculated transition probability.
US09646606B2
In some implementations, data that indicates multiple candidate transcriptions for an utterance is received. For each of the candidate transcriptions, data relating to use of the candidate transcription as a search query is received, a score that is based on the received data is provided to a trained classifier, and a classifier output for the candidate transcription is received. One or more of the candidate transcriptions may be selected based on the classifier outputs.
US09646604B2
System and method to adjust an automatic speech recognition (ASR) engine, the method including: receiving social network information from a social network; data mining the social network information to extract one or more characteristics; inferring a trend from the extracted one or more characteristics; and adjusting the ASR engine based upon the inferred trend. Embodiments of the method may further include: receiving a speech signal from a user; and recognizing the speech signal by use of the adjusted ASR engine. Further embodiments of the method may further include: producing a list of candidate matching words; and ranking the list of candidate matching words by use of the inferred trend.
US09646595B2
A personal audio device, such as a wireless telephone, includes an adaptive noise canceling (ANC) circuit that adaptively generates an anti-noise signal from a reference microphone signal and injects the anti-noise signal into the speaker or other transducer output to cause cancellation of ambient audio sounds. An error microphone is also provided proximate the speaker to estimate an electro-acoustical path from the noise canceling circuit through the transducer. A processing circuit determines a degree of coupling between the user's ear and the transducer and adjusts the adaptive cancellation of the ambient sounds to prevent erroneous and possibly disruptive generation of the anti-noise signal if the degree of coupling lies either below or above a range of normal operating ear contact pressure.
US09646592B2
An apparatus comprises a dereverberation module for generating a dereverberated audio signal based on an original audio signal containing reverberation, and an audio-analysis module for generating audio analysis data based on audio analysis of the original audio signal and audio analysis of the dereverberated audio signal.
US09646589B2
Data sonification arrangements for use with data visualization so as to provide parallel perceptual channels for representing complex numerical data to a user seeking to identify correlations within the data are presented. In an implementation, several varying data quantities are represented by time-varying graphics while several other varying data quantities are represented by time-varying sound, both presented to a user to observe correlations between sonic and visual events or trends. Sonification can be used to offload some information-carrying information capacity from a visualization system, while other information can be rendered via both sonification and visualization to provide affirming or orienting redundancy. In an implementation joint and coordinated visual-sonic metaphors are used for this or other purposes. For example, data sonification can include multiple data-modulated sound timbre classes, each rendered within a stereo sound field according to a spatial metaphor that is shared with the visualization.
US09646581B2
Soundhole cover accessories may act to prevent items from falling into the body of an instrument through its soundhole, such as guitar picks or the like. The accessories may include a body portion adapted to fit over the soundhole of the instrument and a mesh portion defined by a plurality of apertures that may be dimensioned so that items that may be used with the instrument (such as guitar picks) are substantially prevented from passing there through. The body portion may act as a base to which one or more adhesive fasteners may be attached. The body may be flexible or rigid, and may be placed over the soundhole and affixed into place by the adhesive fasteners.
US09646580B1
A decorative panel for a guitar and a manufacturing method of the decorative panel. The decorative panel can be applied to a head, a body, a neck or a pick guard of the guitar to enhance an aesthetic sense of the guitar. The manufacturing process is simplified to reduce the manufacturing period thereby increasing productivity and reducing the failure rate of the guitar. The decorative panel for the guitar includes a base plate; and a binding disposed at the edge of the base plate in a band type by a binding line. The binding line is integrally formed such that one or more binding grooves formed on the periphery of the base plate are filled with epoxy resin paint.
US09646565B2
A display cable supports communication of display information and peripheral information between a display and an information handling system by selectively adapting data links of the display cable to include peripheral information. The data links can switch between display information and peripheral information communication or can include identifier information to support switching of both types of information on a common data link.
US09646549B2
A liquid crystal device is disclosed. The liquid crystal device includes a four-color converter, a data driver configured to process the RGBW information to be displayed to generate a simulated data signals, a scanning driver configured to generate scanning signals in sequence, and a display panel configured to display colors in accordance with the simulated data signals from the data driver and the scanning signals from the scanning driver. The four-color converter is configured to convert original RGB information to grayscale values for each color, to apply a white-balance process to the grayscale values for each color, to determine a maximum grayscale value and a minimum grayscale value among the grayscale values after the white-balance process, to generate two chromaticity values of a standard white color when the maximum grayscale value is not greater than a predetermined grayscale value, to calculate second grayscale values for each color in accordance with the two chromaticity values, to convert the minimum grayscale value to an outputted grayscale value of the white color to be displayed in the RGBW information, to calculate the outputted grayscale values for a red color, a green color, and a blue color within the RGBW information to be displayed in accordance with the second grayscale values and the outputted grayscale value of the white color.
US09646548B2
Light sources of a backlight are configured to customize the shape of light emitted from the clusters. The clusters are activated as a unit and modulated as to brightness, but of the customized shape. All clusters can have a similar customized PSF, or the customization of each cluster may be varied in real time. Real time changes of a clusters PSF may be based, for example, an image or a region of the image to be displayed using the clusters.
US09646545B2
Back cabinet has space which can accommodate backlight unit and a circuit board therein, a backlight supporter which supports backlight unit is provided on an inner wall surface forming space, liquid crystal display panel is disposed in an opening of space of back cabinet, and panel driving circuit board for electrically connecting liquid crystal display panel to a signal processing circuit board is exposed to outside from a side wall of back cabinet.
US09646542B2
A gate driver circuit includes a gate driver coupled to a gate line. The gate driver generates a gate signal for input to a plurality of pixels and controls a current of the gate signal based on an IR-drop of a supply voltage supplied to the pixels through a supply voltage distribution line. The gate driver decreases the current of the gate signal when the IR-drop increases, and increases the current of the first gate signal when the IR-drop decreases. A pulse width of an activation period of the gate signal decreases and luminance of the pixels increases when the current of the first row pixels decreases.
US09646539B2
Provided is a scan driving circuit including a plurality of unit scan driving circuits, at least one of the plurality of unit scan driving circuits including: a first transistor configured to receive a prior scan signal in synchronization with a first clock signal and to respond to an enable level of the prior scan signal to output a second clock signal as a corresponding scan signal during one cycle of the first clock signal; a second transistor coupled between the first transistor and a first voltage; and a third transistor coupled to a gate of the second transistor and configured to be turned on by a first signal. A width of a first wire configured to transfer the first clock signal and a width of a second wire configured to transfer the second clock signal are larger than that of a third wire configured to transfer the first signal.
US09646533B2
An organic light emitting display device that increases an aperture ratio is provided. The organic light emitting display device comprises a display panel that includes a plurality of sub pixels provided in a pixel region defined by a plurality of scan control lines and a plurality of data lines, each scan control line crossing each data line, wherein some of the plurality of sub pixels have a first aperture ratio, and the other sub pixels have a second aperture ratio smaller than the first aperture ratio.
US09646523B2
A display device includes a first signal electrode configured to transfer a signal, a first insulating layer positioned on the first signal electrode, a first electrode positioned on the first insulating layer, a second insulating layer positioned on the first electrode, and a second electrode positioned on the second insulating layer, where a first contact hole exposing the first signal electrode is defined in the first insulating layer and the second insulating layer, the second electrode is connected with the first signal electrode through the first contact hole, and an opening including an edge side surrounding the first contact hole in a plan view is defined in the first electrode.
US09646519B2
A paint stick and marker installation system for inserting a marker having shaft with a bottom end for inserting into the ground and an engagement portion of the shaft separated from the bottom end by an insertion portion of the shaft. The apparatus includes a magazine assembly configured to receive at least one marker. The magazine space has a push position in the magazine space for receiving the at least one marker. The apparatus further comprises a push assembly mounted on the magazine assembly. The push assembly is configured to engage the engagement portion of the shaft of the marker located in the push position and push the marker from the magazine assembly when the push assembly is actuated. A plurality of the markers are bonded together such that each of the markers can be removed from the rest of the plurality when inserting a marker into the ground.
US09646514B2
Disclosed are systems, computer-readable mediums, and methods for receiving, from a sensor array, three-dimensional sensory data associated with an environment of a person. The three-dimensional sensory data is converted into a two-dimensional representation. An obstacle is located within the environment based upon the sensory data. The obstacle is mapped onto the two-dimensional representation and the two-dimensional representation is mapped onto a plurality of actuators within a vibrotactile interface. One or more of a plurality of actuators are controlled based upon the mapping of the two-dimensional representation onto the plurality of actuators to provide tactile input to the person that represents a location of the obstacle.
US09646502B1
This disclosure is directed to an automated unmanned aerial vehicle (“UAV”) self-identification system, devices, and techniques pertaining to the automated identification of individual UAVs operating within an airspace via a mesh communication network, individual UAVs and a central authority representing nodes of the mesh network. The system may detect nearby UAVs present within a UAV's airspace. Nearby UAVs may self-identify or be identified via correlation with one or more features detected by the UAV. The UAV may validate identifying information using a dynamic validation policy. Data collected by the UAV may be stored in a local mesh database and distributed to individual nodes of the mesh network and merged into a common central mesh database for distribution to individual nodes of the mesh network. UAVs on the mesh network utilize local and central mesh database information for self-identification and to maintain a dynamic flight plan.
US09646490B2
The start and end of the transmission of information is controlled by, depending on the situation, determining whether to stop transmitting position information on a vehicle-mounted terminal device transmitted by a vehicle-to-vehicle communication between a vehicle of interest and a surround vehicle and position information on a portable terminal device transmitted by a pedestrian-to-vehicle communication between the portable terminal device carried by a person who got off its own vehicle and a surround vehicle.
US09646487B2
Methods, apparatus, systems and articles of manufacture are disclosed to audit process control alarms. An example disclosed method includes identifying components in the process control system that correspond to alarms to be audited. The example method also includes if a query to request a status of a particular one of the alarms to be audited is not in a status update queue, generating a query associated with the audit report request to request the status of the particular one of the alarms from the corresponding component. Otherwise, if the query to request the status of a particular one of the alarms to be audited is in the status update queue, associating the audit report request to the query. The example method also includes transmitting, via a process control system bus, the queries to be designated as low priority.
US09646486B1
Alarm system technology, in which an alarm event is detected at a property monitored by an alarm system when the alarm system was set in an armed state. Based on detection of the alarm event, an alarm probability score that indicates a likelihood of the alarm event being an emergency situation is determined and the alarm event is handled based on the determined alarm probability score.
US09646482B1
A system includes a plurality of sensors installed at a premises to capture data from an environment, a memory configured to store data captured over at least a first period of time, and a processor configured to determine, based on the stored captured data, an estimate travel time for a user to enter the premises and disarm an alarm system installed in the premises, and to set an entry allowance of the alarm system to the estimate travel time when one or more of the plurality of sensors detects an entry into the premises.
US09646480B2
Various embodiments of hazard detectors are presented. A hazard sensor may be present that detects the presence of a hazardous condition. A light sensor may be present that detects an ambient brightness level. A motion sensor may be present that detects motion of a user. A light may be present that is capable of outputting light. A processing system may receive an indication of the ambient brightness level in the ambient environment of the hazard detector from the light sensor. The processing system may determine that the ambient brightness level is less than a threshold brightness. The processing system may receive information indicative of the user moving in the ambient environment of the hazard detector. The processing system may cause the light to illuminate based on the ambient brightness level being below the threshold brightness and the user moving in the ambient environment of the hazard detector.
US09646467B2
An intelligent electronic horn and an implementation method includes: detecting one or more of a current operating air pressure, operating temperature and power supply voltage of the electronic horn; calculating a compensation control parameter according to a detection result; performing compensation control on a drive signal of the electronic horn according to the compensation control parameter; and using the drive signal after the compensation control to drive the electronic horn to sound. The operating air pressure, temperature and power supply voltage of an electronic horn are detected, calculations are performed on the basis of a pre-established mathematical model according to detected values, and compensation control is performed on the frequency and pulse width of a drive signal of the electronic horn.
US09646465B2
An Automated Teller Machine has a housing having an aperture through which documents may pass between the interior and the exterior of the housing. At least one escrow area is defined in the housing. A document transport system extends within the housing for the transport of documents between the aperture and the escrow area.
US09646462B2
At step 40 the parameters for the jackpot are initialized, including a storage criterion and an award criterion. At step 41 the current value of the jackpot prize pool is calculated. At step 42 the CPU 2 checks whether the storage criterion has been met. If so, the currently accumulated value of the jackpot prize pool is stored at step 43 in memory 6 as a pending jackpot, along with the award criterion that is associated with that pending jackpot. The jackpot parameters are then redefined and the accumulation of as new jackpot prize pool is ready to commence. A number of pending jackpots may be concurrently stored in memory 6, each with an associated stored award criterion. At step 46 the CPU 2 determines if any of the award criterions that are associated with the pending jackpots have been met and if so, the associated pending jackpot prize is awarded at step 47 in accordance with a jackpot prize distribution scheme.
US09646444B2
An electronic wireless hand held multimedia device includes a microprocessor and more than one wireless transceiver modules enabling wireless communications over a variety of standards, including Cellular (e.g., GSM, CDMA, CPRS, 3G), 802.11 (e.g., WLAN), and short range (e.g., Bluetooth, infrared, RFID), for the retrieval, processing and delivery of multimedia data to/from remote data resources (e.g., Internet, servers). The hand held device can include any of: a touch sensitive display screen configured to display multimedia data including video, text and GPS maps, and accept user input; a cartridge reader configured to exchange data with an electronic cartridge; a GPS module configured to operate with mapping resources and provide location information and GPS mapping; a mobile payment module enabling mobile payments via a variety of billing arrangements; a security module enabling protected data management and communications security; a video camera enabling the capture, storage, processing and transmission of video and pictures.
US09646441B2
A system includes a vehicle receiver and a fob. The fob includes a shield which defines a shield cavity. A transmitter is located with the shield cavity and is programmed to send signals to the vehicle receiver. The shield cavity is shielded to direct signals transmitted by the transmitter toward the vehicle receiver when the fob engages and is pushed toward the vehicle receiver.
US09646436B1
A method and apparatus for hands-free activation of vehicle functions such as accessing doors and windows, and establishing driver preferences such as seat positions is disclosed. A capacitive sensor is embedded in a non-metallic portion of the vehicle such as a tail light, window, or cladding on the vehicle. The capacitive sensor is in communication with a vehicle control unit, which can detect the proximity of a user or a specific gesture to activate a predetermined vehicle function.
US09646409B2
A display data set depicting a three-dimensional source data set of display parameters is generated through volume rendering. Integration distance is subdivided based on a fixed predetermined target sampling distance independent of a desired sampling distance. The number of subsections minus one correspond to integrations over different subsections with front and back values of the display parameter as a target sampling distance opacity. A contribution of the volume-rendering integral and a target sampling distance color coefficient are based on the target sampling distance opacity. Target sampling distance opacities and target sampling distance color coefficients are determined based on pre-integration tables for contributions of the volume-rendering integral. Third opacities are calculated and converted to the desired sampling distance from target sampling distance opacities and the ratio of desired sampling distance to target sampling distance. Third color coefficients are calculated, and the volume-rendering integral is determined from the contributions.
US09646407B2
A flexible display apparatus and a method configured to display three-dimensional (3D) space is disclosed. The flexible display apparatus includes a display that is deformable and is configured to display three-dimensional (3D) image data, a sensor configured to sense deformation of the display, and a controller configured to display some of the 3D image data corresponding to the sensed deformation of the display. The method for controlling a flexible display apparatus with a display includes sensing deformation of a display, and displaying some three-dimensional (3D) image data corresponding to the deformation when the deformation is bending of the display.
US09646400B2
Concepts and technologies are disclosed herein for virtual doorbell augmentations for communications between augmented reality and virtual reality environments. According to one aspect, an augmented reality server computer can provide an augmented reality environment to a user device. The augmented reality environment can include a view of a physical, real-world environment and a virtual doorbell augmentation applied to a residence depicted in the view of the physical, real-world environment. The augmented reality server computer can receive a selection of the virtual doorbell augmentation. In response to receiving the selection of the virtual doorbell augmentation, the augmented reality server computer can request access to a virtual reality environment provided by a virtual reality server computer associated with the residence.
US09646385B2
A computer-implemented system for generating a depth map for a pair of stereoscopic images, the system comprising a lower level processing arrangement and a higher level processing arrangement. The lower level processing arrangement comprises a search range estimation module receiving a reliability map and configured to determine a range of considered disparities in a higher level of processing wherein a decision regarding such range is taken based on the reliability map. The higher level processing arrangement comprises a depth map generation with reliability module receiving output of an image sections matching module configured to output a depth map and a reliability map wherein the reliability map comprises data on reliability, with which a disparity value has been determined for each point of the pair of stereoscopic images.
US09646383B2
An image processing apparatus includes an image processing intensity determination unit that determines an intensity of image processing and an image processing unit that performs the image processing to image information in accordance with the intensity determined by the image processing intensity determination unit. The image processing intensity determination unit determines the intensity of the image processing at a target pixel included in the image information on the basis of a depth value indicating a depth corresponding to the target pixel and a vertical position of the target pixel in the image information.
US09646379B1
Methods and systems for detection of selected defects in relatively noisy inspection data are provided. One method includes applying a spatial filter algorithm to inspection data acquired across an area on a substrate to determine a first portion of the inspection data that has a higher probability of being a selected type of defect than a second portion of the inspection data. The selected type of defect includes a non-point defect. The inspection data is generated by combining two or more raw inspection data corresponding to substantially the same locations on the substrate. The method also includes generating a two-dimensional map illustrating the first portion of the inspection data. The method further includes searching the two-dimensional map for an event that has spatial characteristics that approximately match spatial characteristics of the selected type of defect and determining if the event corresponds to a defect having the selected type.
US09646378B2
There is provided an imaging unit comprising at least one image sensor, a measuring instrument including at least one marker, a position computing unit, a determining unit, and an output controller, wherein the imaging unit is configured to acquire an image comprising a user and the marker, and provide the acquired image to the position computing unit, wherein the position computing unit is configured to compute a position of the marker with respect to the user based on the image provided by the imaging unit, and further provide the computed position to the determining unit, wherein the determining unit is configured to determine whether the computed position of the marker matches a retrieved measurement position, and further output the result of the determination to the output controller, and wherein the output controller is configured to provide an indication when the marker position matches the measurement position.
US09646375B2
One variation of a method for setting a blood transfusion parameter for a patient includes identifying a blood transfusion bag in a photographic image; extracting a color feature from a region of the photographic image corresponding to the blood transfusion bag; estimating a blood component content within the blood transfusion bag based on the color feature; and triggering transfusion from the blood transfusion bag based on the blood component content within the blood transfusion bag and an estimated volemic status of the patient.
US09646365B1
An system having an aperture configured to change state while recording one or more images during an image capture process, and a method for processing one or more recorded images by detecting at least a bokeh artifact within the one or more images and processing the images based at least in part on information obtained by analyzing the size and orientation of the bokeh artifact.
US09646361B2
A method of registering a 3-dimensional (3D) model of a coronary artery tree with 2-dimensional (2D) images includes solving for matrices R, Pi, i=1, . . . , N, that minimize a cost function Σi=1N∥ΨiRX−IiPi∥2,1 subject to constraints that R∈conv(SO(3)), Pi∈[0,1]ni×m, and Pi1≦1, 1TPi=1, for i∈{1, N}, where N is a number of 2D images, R is a rotation matrix, conv(SO(3)) denotes a convex hull of the special orthogonal group in 3 dimensions, X denotes a 3D centerline model of a coronary artery tree, Ii denotes the ith 2D image, Ψi denotes a transformation between the 3D centerline model X and the ith 2D image Ii, 1 is an all-ones vector, Pi is a permutation matrix, and rounding a solution R to a nearest orthogonal matrix R* in SO(3), where R* aligns the 3D centerline model X of the coronary artery tree with 2D fluoroscopic images acquired during a percutaneous coronary intervention procedure.
US09646346B2
The devices, methods, systems and computer-readable mediums of the present disclosure provide automatic data collection for insurance rating purposes. In particular, a battery powered Bluetooth device may be attached to a personal item of an insured individual. The Bluetooth device may automatically trigger a mobile telephone to begin storing data related to use of the personal item when the mobile telephone is proximate the Bluetooth device. The mobile telephone may periodically transmit the stored data to a remote server.
US09646344B2
Systems and methods for chart-based order entry are described. According to one example method a chart is used to display historical market data corresponding to a tradeable object. An order entry interface is displayed in relation to the chart. The order entry interface includes a plurality of price objects for selecting price levels to be used for trade orders to buy or sell the tradeable object. According to one example method, the price levels corresponding to the price objects depend on a location of the interface in relation to the chart, and as the interface is moved in relation to the chart, the price levels are automatically updated. Upon selection of the price level on the interface, a trade order to buy or sell is submitted to a matching engine at an electronic exchange.
US09646341B2
An exemplary display system is disclosed, which includes a display wall having a plurality of slots; a plurality of removable shelves, each removable shelf insertable into a slot of the plurality of slots; a plurality of unique identifiers, each unique identifier coupled to a corresponding removable shelf; a fixed shelf having an embedded or attached sensor; and a user-interactive visual display. Various systems display plumbing fixtures. In exemplary embodiments, the unique identifiers are implemented using RFID tags.
US09646335B2
Various embodiments enable a computing device to perform tasks such as processing an image to recognize text or an object in an image to identify a particular product or related products associated with the text or object. In response to recognizing the text or the object as being associated with a product available for purchase from an electronic marketplace, one or more advertisements or product listings associated with the product can be displayed to the user. Accordingly, additional information for the associated product can be displayed, enabling the user to learn more about and purchase the product from the electronic marketplace through the portable computing device.
US09646333B1
Systems and methods for responding to the arrival of a person within a defined geographic area after receiving a virtual presence of the person at a target destination before actual arrival at the target destination are defined. A mobile electronic device stores user profile data and periodically outputs a unique device identification number and position data. A host server monitors the position data and when it is within the defined geographic area, the user profile data is received from the mobile electronic device and transmitted to subscribing terminals. The terminals display the user profile data so that customer service may be enhanced upon the user's arrival. When the user leaves the defined geographic area, the profile data is removed.
US09646324B2
A press release distribution system provides press release and other news to forum sites as posts. The forum software that runs at forum sites includes press release interface software or is adapted to receive press release interface plug-in modules for interfacing with the press release distribution system. The press release interface software or plug-in module may also monitor and/or analyze user data of forum members and/or forum activities of the users. The monitored user data and forum activities may be provided to the press release distribution system for analysis and generation of user profiles. Using the result of the analysis (e.g., user profiles), the press release distribution system can target particular users or forums to direct the press releases, news, or advertisements for most effective advertising campaign.
US09646302B2
Systems, methods, and computer program products are provided for managing activation in a mobile wallet. A wallet activation request is received from a wallet client. The wallet activation request is transmitted to a central trusted service manager (TSM). One or more push messages including activation data are received from the TSM, and the push messages are transmitted to the wallet client, in response to a second request from the wallet client while the wallet client is in an active state.
US09646294B2
A method and system for conducting an online payment transaction through a point of sale device. The method includes receiving input from a user selecting an item for purchase through the point of sale device; calculating a total purchase amount for the item in response to a request from the user to purchase the item; and sending payment authorization for the total purchase amount from the point of sale device to a payment entity, in which the payment authorization is sent to the payment entity via a mobile communication device of the user. The method further includes receiving a result of the payment authorization from the payment entity through the mobile communication device; and completing the payment transaction based on the result of the payment authorization.
US09646293B2
Various embodiments provide a subscription management service, which can be in-band or out-of-band, which allows users to extend their subscription or temporarily side-step payment limits on a subscription without disrupting the user's experience. The various embodiments can be operable in all on-demand services including, but not limited to, video services, voice services, video/voice services, text services, Web services, and the like.
US09646289B2
A solutions-based computer system manufacturing process includes assembling computer and storage system components for creation of a given solution-based product as a function of a customer order or plan. The process further includes assigning a solution identifier to the solution-based product. The solution identifier includes a solution type and a unique identifier within the solution type.
US09646284B1
Building and maintaining an accurate and up-to-date global inventory of hardware, software, and telecommunications assets deployed throughout an organization is described. A global inventory warehouse (GIW) receives an identification and physical location of these assets from multiple source systems. Some of these source systems contain information pertaining to the assets that has been manually entered into the source system by a human administrator. Other source systems, meanwhile, contain information that has been automatically collected by the source systems without human intervention. The GIW receives this information from the source systems and stores it within a GIW database. The GIW database may thus contain a global inventory of all or nearly all of the hardware, software, and telecommunications assets distributed throughout the organization. This database may also contain an identification of physical locations within the organization of all or substantially all of these assets.
US09646283B2
A device receives a request for a flight path for a UAV to travel from a first location to a second location, and determines capability information for the UAV based on component information of the UAV. The device calculates the flight path based on the capability information, and generates flight path instructions that include delivery confirmation instructions. The device provides the flight path instructions to the UAV to permit the UAV to travel from the first location to the second location to deliver a payload, and obtains, based on the delivery confirmation instructions, user credentials associated with a user at the second location. The device determines whether the user is an authorized recipient of the payload, based on the user credentials, and causes the UAV to selectively deliver the payload to the user based on whether the user is the authorized recipient of the payload.
US09646270B2
The disclosed principles provide on-demand systems and related methods for identifying, categorizing, calculating, formatting, aggregating, linking, and visualizing multi-dimensional data in an interactive simulation environment. Simulation results are customized for each end-user based on selection criteria provided by the end-user via interactive network-based dashboards. The disclosed principles may be deployed either as an on-demand or SaaS deployment, public or private, or on the user's own servers. Business data for any number of businesses, executives, employees and individuals may be provided by any data source including customers/subscribers. The disclosed system/service does not rely on data provided from end-users, such as personal contact databases, electronic rolodexes, career job sites, or business or social media networking websites. Instead, the disclosed principles provide an aggregation of data in any of a number of categories to end users for their use in identifying relationships between, for example, employers, customers, competitors, prospects, partners, vendors, business consultants, investors, mergers, executives, employees, clients, and individuals.
US09646265B2
A model updating method is provided. The model updating method that is executed by a computer includes calculating a score that indicates a degree of normality or abnormality of each of a plurality of pieces of data by using as a judgment model each of the pieces of data, predicting as a predicted condition whether each of the pieces of data is normal or abnormal according to score, judging whether or not the predicted condition is correct for each of the plurality of pieces of data, calculating the accuracy rate for the predicted conditions of a top specified number of pieces of data in order of decreasing abnormality as indicated by the score when the plurality of pieces of data are arranged in a specified order of score, and judging whether or not it is necessary to update the judgment model according to the accuracy rate.
US09646260B1
Techniques are described for adding knowledge to a knowledge base in which alternative information retrieval techniques are used to obtain missing information from an available corpus of documents (e.g., the World Wide Web). Existing relationships in a knowledge base are used to identify entities for which the relationships are not expressed in the knowledge base. The alternative information retrieval techniques are then used to find this information.
US09646256B2
Techniques for generating end-to-end sales leads based on storage capacity forecast using predictive modeling are described herein. According to one embodiment, diagnostic data is received from a data collector that periodically collects the diagnostic data from a storage system having one or more storage units to store data objects. A capacity forecaster coupled to the data collector forecasts a full capacity date using predictive modeling based on the diagnostic data, where the full capacity date estimates a date in which the one or more storage units reach a full storage capacity. A context generator coupled to the capacity forecaster generates a context having information identifying the one or more storage units of the storage system and an operator operating the storage system, wherein the context is used to communicate with the operator for acquiring an additional storage unit to increase storage capacity prior to the full capacity date.
US09646254B2
Techniques and solutions for predicting web pages are described. Web page prediction can be performed using prediction models, including aggregate prediction models and user-based prediction models. Prediction models can be used to predict which web page (or which web pages) a user is likely to visit (e.g., to visit next after a current web page). Predicted web pages can be obtained in advance (e.g., pre-fetched and/or pre-rendered). Web page prediction can be performed by server computing environments and/or by client computing devices.
US09646253B2
This disclosure is directed to techniques for inferring traffic information or estimating total volume of traffic/data flowing through a target network/entity, wherein only a partial subset of inferred traffic information or volume of data is available to a predictor entity/network that infers such traffic information. In an embodiment, such partial subset of total traffic can either be made available to the entity/network for inferring and estimating total traffic or such partial data can actually flow through the entity/network.
US09646234B1
A transaction card has a substructure consisting at least in part of a layer of fibrous material, such as carbon fiber strands or filaments, arranged in a pre-selected pattern, such as a weave pattern, that is at least partially enclosed by a transparent plastic film. A sheet is laminated on each of two opposing faces of the substructure to form a transaction card core. One or both of the sheets laminated on the opposing faces of the substructure is also made of a transparent material, and one or both of the two opposing faces of the transaction card core can be printed. An over-laminate film, such as a transparent polyvinyl chloride plastic film, can be laminated on each of two opposing faces of the transaction card core.
US09646226B2
Automatic selection of training images is enhanced using an instance-weighted mixture modeling framework called ARTEMIS. An optimization algorithm is derived that in addition to mixture parameter estimation learns instance-weights, essentially adapting to the noise associated with each example. The mechanism of hypothetical local mapping is evoked so that data in diverse mathematical forms or modalities can be cohesively treated as the system maintains tractability in optimization. Training examples are selected from top-ranked images of a likelihood-based image ranking. Experiments indicate that ARTEMIS exhibits higher resilience to noise than several baselines for large training data collection. The performance of ARTEMIS-trained image annotation system is comparable to using manually curated datasets.
US09646221B2
A field-programmable gate array (FPGA) coarse Hough transform unit (102) performs on an FPGA a first coarse-precision Hough transform upon an image that has been applied as input to an image input unit (101), and supplies candidate location information obtained by the first Hough transform and the image to an external memory (103). A fine Hough transform unit (104) reads the candidate location information and the image stored in the external memory (103), uses the candidate location information to perform, on a general-purpose processor, a second detailed-precision Hough transform upon the image, and supplies detailed-precision location information of a two-dimensional pattern that is the object of recognition within the image to the external memory (103).
US09646217B2
High quality, high contrast images of an iris and the face of a person are acquired in rapid succession in either sequence by a single sensor and one or more illuminators, preferably within less than one second of each other, by changing the data acquisition settings or illumination settings between each acquisition.
US09646211B2
A video analytic system includes a depth stream sensor, spatial analysis module, temporal analysis module, and analytics module. The spatial analysis module iteratively identifies objects of interest based on local maximum or minimum depth stream values within each frame, removes identified objects of interest, and repeats until all objects of interest have been identified. The temporal analysis module associates each object of interest in the current frame with an object of interest identified in a previous frame, wherein the temporal analysis module utilizes the association between current frame objects of interest and previous frame objects of interest to generate temporal features related to each object of interest. The analytics module detects events based on the received temporal features.
US09646203B2
A method, apparatus and computer program product are provided for generating map data based on construction designs. In the context of a method, the method includes receiving a construction design, performing optical character recognition to detect characters within the construction design, extracting design features within the construction design, and generating map data based on the detected characters, and the extracted design features.
US09646201B1
The disclosed technology automatically (e.g., programmatically) initializes predictive information for tracking a complex control object (e.g., hand, hand and tool combination, robot end effector) based upon information about characteristics of the object determined from sets of collected observed information. Automated initialization techniques obviate the need for special and often bizarre start-up rituals (place your hands on the screen at the places indicated during a full moon, and so forth) required by conventional techniques. In implementations, systems can refine initial predictive information to reflect an observed condition based on comparison of the observed with an analysis of sets of collected observed information.
US09646197B2
In real biometric systems, false match rates and false non-match rates of 0% do not exist. There is always some probability that a purported match is false, and that a genuine match is not identified. The performance of biometric systems is often expressed in part in terms of their false match rate and false non-match rate, with the equal error rate being when the two are equal. There is a tradeoff between the FMR and FNMR in biometric systems which can be adjusted by changing a matching threshold. This matching threshold can be automatically, dynamically and/or user adjusted so that a biometric system of interest can achieve a desired FMR and FNMR.
US09646193B2
A method of authenticating a candidate fingerprint by means of an electronic device comprising a touch sensor; and a fingerprint sensor. The method comprises the steps of: acquiring at least one touch sensor signal indicative of a sub-area of the touch sensor being touched by the candidate finger; acquiring at least one fingerprint image of the candidate fingerprint; retrieving a stored enrollment representation of the enrolled fingerprint of the enrolled finger; determining an authentication representation of the candidate fingerprint based on the fingerprint image; and determining an authentication result based on the authentication representation, the stored enrollment representation, and the at least one touch sensor signal.
US09646189B2
The present disclosure relates to a scanner with an illumination system, including: a plurality of illumination devices in the illumination system, wherein the plurality of illumination devices illuminate a label; an imager, which captures an image signal reflected from the label and decodes the image signal; and a detector, which detects the intensity of light reflected from the label, wherein if the light intensity is higher than a predetermined threshold, an illumination status of one or more of the plurality of illumination devices is changed. The scanner with an illumination system according to the present disclosure can effectively avoid specular reflection when scanning a barcode on a smartphone screen.
US09646185B2
A system for managing a population of RFID tags where the system may include: an interrogator configured to transmit a select command to the population of RFID tags, and at least one modified tag in the population of RFID tags. The select command may include information specifying a memory location. The modified tag may include a memory configured with a memory address corresponding to the memory location specified by the select command, and a controller configured to perform at least one action upon the at least one modified tag receiving the select command. The at least one action may be based on the memory location specified by the select command.
US09646184B2
An information reading system includes a passive-type IC tag that identifies a device installed on side of an environment, a tag reader that reads identification information of the passive-type IC tag, a sensor unit that detects a touch operation performed with respect to the passive-type IC tag, and a reading control unit that, when the sensor unit detects a touch operation, activates the tag reader and controls timing of reading the passive-type IC tag.
US09646179B1
The present invention is directed to a mechanical locking device for securing computer Input/Output (I/O) ports that are in use and for securing unused computer I/O ports of an electronic device. The invention is also directed to a mechanical locking device which can be used to secure a portable locking flash memory device in a computer I/O port. The invention is also directed to physically blocking access to a computer I/O port. The mechanical locking device includes a locking mechanism configured for releasably locking the device within the computer I/O port. The mechanical locking device further includes a first actuator configured to move the locking mechanism between a locked condition and an unlocked condition, and a second actuator configured to prevent the locking mechanism from moving to the unlocked condition.
US09646178B2
Technologies are generally described for partial programming of memory having physically unclonable functions for secure data storage. In some examples, a sender that wishes to securely send data to a recipient using a physical memory may measure a program threshold average and a program threshold variation for bits in the memory and group the bits into different bins based on the measured average and variation. The sender may partially program the data to a set of bits selected from one or more of the bins by applying partial program pulses to the bits based on the program threshold average and the program threshold variation. The sender may then provide the partially-programmed memory to the recipient. The recipient may then partially program the received memory based on the program threshold average and the program threshold variation to recover the programmed data.
US09646174B2
A secure provisioning manifest used to authenticate and securely communicate with peripherals attached to a computer is provided with techniques to learn about a new peripheral not authorized to be attached to the computer and possibly gain authorization for the peripheral. A secure I/O module, that is separate from an operating system and transaction software executed by a processor of the computer, uses the secure provisioning manifest to authenticate and establish a secure encrypted session for communicating with each peripheral authorized to be attached to the computer. When an unauthorized peripheral is found, identifying information for the peripheral is transmitted to an enterprise provisioning server with a request to authorize the peripheral.
US09646173B2
In particular embodiments, one or more computing devices associated with a third-party system generate a web page comprising one or more references configured to cause a client device to send a request to a web site of a social-networking system to access a user comment, wherein the user comment is associated with content on a third-party web site hosted by the third-party system. The request comprises a first URL that references the web site of the social-networking system, and the first URL comprises a second URL that references the third-party web site and comprises a content identifier for the content, and the request is to cause the web site of the social-networking system to access the user comment in a data store of the social-networking system. The one or more computing devices associated with the third-party system may send the web page to the client device.
US09646172B1
Systems and methods are disclosed for securely storing and accessing data records. In an embodiment, a random seed value and a time period counter received from a warrant server. The seed value may correspond to a starting time period and be updated by applying a one-way function to the seed value upon expiration of the starting time period and each subsequent time period. A data record may then be received including one or more data fields. A data field may be identified to use as an index value, and an encryption key may be generated based on the current random seed value and the index value. The data record and/or the index value may then be encrypted using the encryption key, and the encryption key may be securely deleted after encrypting the data record and/or the index value. The warrant server may then assist with recovery of the data.
US09646168B2
A data access control method includes requesting, by the data owner unit, the generation of a data encryption key (DEK) from the manager unit, generating, by the manager unit, the DEK, generating, by the manager unit, the result of the Ciphertext Policy-Attribute Based Encryption (CP-ABE) of the DEK and a secret key used to decrypt the result of the CP-ABE encryption, and then responding, by the manager unit, to the data owner unit, obtaining, by the data owner unit, the DEK by performing the CP-ABE decryption of the result of the CP-ABE encryption using the secret key, encrypting, by the data owner unit, data with the obtained DEK, and uploading, by the data owner unit, the encrypted data and DEK information to the cloud.
US09646163B2
A technique communicates data between a first client device and a second client device. The technique involves establishing a regular communications pathway from the first client device to the second client device through a communications server, and establishing a highly confidential communications pathway from the first client device to the second client device. The highly confidential communications pathway circumvents the communications server. The technique further involves, after the regular communications pathway and the highly confidential communications pathway are established, conveying highly sensitive information from the first client device to the second client device only through the highly confidential communications pathway to avoid exposing the highly sensitive data to the communications server through the regular communications pathway.
US09646160B2
An apparatus and method are provided for enhancing resilience to attacks on reset of the apparatus. The apparatus comprises at least one storage element, and update circuitry that is configured to receive obscuring data, and which is responsive to a reset event to store in each of the at least one storage element a data value that is dependent on the current value of the obscuring data. For each such storage element, this ensures that the data value stored in that storage element is unpredictable following each reset event, thereby preventing the reproducibility of certain steps that would typically be taken by an attacker during an attack on the apparatus.
US09646145B2
With their ubiquitous nature and perceived personalized character portable electronic devices are increasingly forming part of individual's life as applications exist for practically anything today and new ones are released daily. It is therefore increasingly important for these electronic devices to dynamically adapt applications, information, user interface etc. According to embodiments of the invention user interfaces provide: Biometric Recognition—the user interface (UI) configuration discretely or in combination with other context factors varies according to the identity of the recognized user; Electronic Environment Context—the electronic environment to the electronic device provides contextual basis for the UI; Dynamic Context Adjustment?, and Micro-Contexts —the UI configuration UI adapts as macro- and micro-contexts change with macro-contexts divided into multiple micro-contexts; Intuitive User Interface—user motions are more intuitive and more closely resemble real world actions; and Smart Agent—application notifications are parsed for impact to other actions/activities in other applications.
US09646142B2
A technique for maintaining encrypted content received over a network in a secure processor without exposing a key used to decrypt the content in the clear is disclosed.
US09646118B1
Simulators are linked to a circuit design tool by establishing a plurality of simulator objects in response to a plurality of registration commands, respectively. Each registration command specifies a simulation interface application associated with one of the simulators, and the simulation interface application has procedures for initiating functions of the associated simulator. For each simulator, values of properties of the simulator are stored in the respective simulator object. The values of the properties include references to the procedures of the associated simulation interface application. An interface, which is responsive to input commands, accesses the values of the properties and executes the procedures referenced by the values of the properties to initiate the functions of the simulators.
US09646117B1
Activated workflow engine, system and method are configured for simulation modeling and an integrated suite of relevant applications. The workflow engine pre-configures workflows of the simulation modeling application. When an end user performs a transaction in the simulation model, the necessary and sufficient information is gathered automatically from the context of the transaction. From the gathered information, the activated workflow engine matches appropriate variables and assigns input values to suit the workflows which are applicable to the transaction. This facilitates the ability to invoke multiple workflows associated with this transaction and subsequently validates the “activated state” of these workflows. When the underlying simulation model or the main transaction is executed, the workflows are activated, the input variables get populated, and the independent workflows get invoked automatically (without requiring manual further input). Results of invoked workflows are available and accessible by users anywhere, anytime.
US09646115B2
A method to determine a drilling fluid density limit involves obtaining a geomechanical model of a target borehole, generating a depth of damage model of the target borehole to describe a relationship between a drilling fluid pressure and a depth of damage representing a modeled amount of yielded rock surrounding the target borehole, where the modeled amount of the yielded rock is calculated using a stress model according to a pre-determined failure criterion, and calculating, using the depth of damage model and the geomechanical model, the drilling fluid density limit as a function of the subterranean formation depth, where the drilling fluid density limit maintains the depth of damage at a target level for the target borehole, where the drilling fluid density limit corresponds to a depth gradient of the drilling fluid pressure, where the target borehole is drilled based at least on the drilling fluid density limit.
US09646108B2
Methods and systems for providing a search engine capability for large datasets are disclosed. These methods and systems employ a Partition-by-Query index containing key-values pairs corresponding to keys reflecting concept-ordered search phrases and values reflecting ordered lists of document references that are responsive to the concept-ordered search phrase in a corresponding key. A large Partition-by-Query index may be partitioned across multiple servers depending on the size of the index, or the size of the index may be reduced by compressing query-references pairs into clusters. The methods and systems described herein may to provide suggestions and spelling corrections to the user, thereby improving the user's search engine experience while meeting user expectations for search quality and responsiveness.
US09646107B2
Embodiments of methods, apparatuses, devices and/or systems for simplifying tree expressions, such as for pattern matching, are disclosed.
US09646104B1
Techniques for associating a user with a user characteristic may be described. In particular, a network-based document may be provided to a computing system of the user. The network-based document may include least an identifier of another network-based document and code. The code may be configured to, upon execution, determine whether the other network-based document was accessed prior to providing the network-based document. An indication of whether the other network-based document was accessed may be determined. For example, the indication may be received from the computing system based on an execution of the code at the computing system. The user may be associated with the user characteristic based on the indication.
US09646100B2
An apparatus and a non-transitory computer-readable medium may perform a method for providing content provider-specified URL keyword navigation. The method may comprise: receiving a first HTTP response from a first web server, wherein the first HTTP response includes a client-executable program; executing the client-executable program, wherein executing the client-executable program comprises: identifying a keyword included in a first URL; transmitting at least a portion of the first URL and the keyword to a second server for resolution; and receiving a second URL corresponding to a resolution of the keyword from the second server; sending a second HTTP request to a third web server for a second resource defined by the second URL; and receiving a second HTTP response from the third web server, wherein the second HTTP response includes the third resource.
US09646098B2
A method, system and computer program product for session completion through co-browsing is claimed. The method can include establishing a content browsing session between a first computing device and a content server serving access to content to the first computing device and maintaining state data for the content browsing session. A co-browsing arrangement of the content can be created as between the first computing device and a second computing device and at least a subset of the state data can be cloned for use by the second computing device during co-browsing of the content. Thereafter, a modified form of the subset of the state data can be received from the second computing device resulting from the co-browsing of the content by the second computing device and the modified form of the subset of the state data can be provided to the first computing device for use during the content browsing session.
US09646097B2
Methods, computer systems, and computer-storage media are provided for augmenting Web-based search results with relevant content received from third-party applications. Each of a plurality of third-party applications is registered to obtain an indication of entity types associated with the each registered third-party application. An annotated search query is received that includes the original inputted search query and at least an entity type associated with the search query. The annotated search query is communicated to those third-party applications having an indicated entity type that matches the entity type associated with the inputted search query. Search results that are relevant to the annotated search query are received from the applications and presented on a results page.
US09646095B1
Systems and methods are provided for automatically generating and maintaining user profile cookie sets. The user profile cookie sets may be used by a web crawler when gathering data such as advertisement data associated with one or more websites. The cookie sets may be generated by choosing a user profile with a set of user traits, selecting a set of websites related to the user traits, and browsing the selected set of websites using a web crawler while allowing the website to place cookies in storage of the web crawler. The cookie sets may be maintained by selecting a website to browse, selecting a user profile associated with the selected website, loading a previously generated cookie set for the selected user profile into the storage of a web crawler, and loading the webpage while allowing the website to place, update, or replace cookies in the storage of the web crawler.
US09646092B2
Methods and systems for the collecting and monitoring of information related to the performance of application programming interfaces (APIs) are provided. A method includes obtaining one or more various measurements of performance of the APIs, and assessing a performance status for each API based on the obtained one or more various measurements of performance. The method further includes displaying, the performance status for each API and the APIs, and searching for a particular API of the displayed APIs using a search technique configured to compare a keyword indicative of the particular API to all fields of JavaScript Object Notation (JSON) objects that have been used to define the APIs. The method further includes displaying the particular API including the performance status for the particular API, the one or more various measurements of performance for the particular API, and methods of the particular API, as a result of the searching.
US09646087B2
Methods and apparatus provide for a Scene Detector to optimize the location of scene breaks in a set of video frames. Specifically, the Scene Detector receives a set of video frames and a corresponding content model for each video frame. As the Scene Detector identifies a scene in the set of video frames, the Scene Detector updates statistical predictors with respect to characteristics of that scene's characteristics. The Scene Detector thereby utilizes the updated statistical predictors to identify a video frame that may be the next scene break. The Scene Detector analyzes video frames with respect to the possible next scene break in order to identify the actual second scene break that occurs after the previously identified scene break.
US09646067B2
Described herein are systems and methods for garbage collection prediction. A temporal graph is received, the temporal graph including nodes, the nodes including hash references to objects. An accumulated difference count is updated when a node is added to the temporal graph, the accumulated difference count including a number of hash differences between a parent node and its children nodes in the temporal graph. A divested difference count is updated when a node is removed from the temporal graph, the divested difference count including a number of hash differences referenced by the removed node but not by either a parent node of the removed node or any child nodes of the removed node. The outcome of the garbage collection is predicted based on at least one of the accumulated difference count and the divested difference count.
US09646064B2
A hierarchical template framework may include lower tier templates that identify groups of software components for discrete software services. The template framework also may include upper tier templates that include one or more lower tier templates and identify software components for a prearranged group of the software services configured to support and operate with an associated category of core software functions. A software developer may build a software application from the software components identified in a selected upper tier template, lower tier templates, and any other core software components identified for the core software functions. The templates prevent the software developer from having to manually locate and test all of the software components for different software services used in a software application.
US09646052B2
A second stage data feed is constructed in a neutral format from source data in a non-syndication format. A content transformation agent is customized for a first source data repository, and the first stage data feed is constructed in the neutral format by dynamically selecting and transforming within the first source data repository selected data primitives of the source data into the first stage data feed in the neutral format. The first stage data feed includes the selected data primitives stored originally in the first source data repository. The first stage data feed is sent to an aggregation agent that generates a second stage data feed as a union of selected data primitives from the first stage data feed. The second stage data feed is generated by detecting relationships among the selected data primitives. The second stage data feed includes related selected data primitives from the first stage data feed.
US09646050B1
Mechanisms for interpreting queries are provided. In some implementations, a method for interpreting queries is provided, comprising: receiving a search query in a search domain; determining search terms based on the search query; determining, for each of the search terms, whether a search term corresponds to an entity name, wherein the entity name is derived from metadata associated with the search domain; in response to determining that entity names correspond to a portion of the search terms, determining an entity type and an entity score associated with each of the corresponding entity names; determining a remaining portion of the entity names by removing at least one of the matching entity names based on the entity score and contextual information in the search query; and performing a search in the search domain with the remaining portion of entity names, wherein each entity name in the remaining portion of entity names is searched corresponding to the associated entity type.
US09646041B2
A system includes reception of an instruction to commit a design-time artifact of a database server application to a repository of a database server, storage of the design-time artifact in the repository of the database server in association with an inactive flag, reception of a request from a user to access the design-time artifact associated with the inactive flag, and, in response to the request, generation of a private runtime representation of the design-time artifact associated with the inactive flag, and deployment of the private runtime representation of the design-time artifact for exclusive use by the user.
US09646038B2
A distributed indexing system spreads out the load on an index of stored data in a data storage system. Rather than maintain a single index, the distributed indexing system maintains an index in each media agent of a federated data storage system and a master index that points to the index in each media agent. In some embodiments, the distributed indexing system includes an index server (or group of servers) that handles indexing requests and forwards the requests to the appropriate distributed systems. Thus, the distributed indexing system, among other things, increases the availability and fault tolerance of a data storage index.
US09646037B2
A system for facilitating content creation includes collecting profiles which are analyzed to build a profile parameter index. A dummy profile is created based on the profile parameter index. The dummy profile is a fictitious character having profile parameters based on input from a user of the profile parameter index. The control of the dummy profile is under the user.
US09646034B2
Embodiments of methods, apparatuses, devices and/or systems for manipulating hierarchical sets of data are disclosed. In particular, methods, apparatus devices and or/or systems for enumerating rooted partial subtrees are disclosed.
US09646032B2
One or more techniques and/or systems are provided for indexing content based upon index features (e.g., temporal features, user engagement features, and/or outlier features), and/or for providing content within a search result interface based upon such index features and/or rankings. For example, user reaction data associated with content (e.g., a microblog message, a social network post, etc.) may be evaluated to generate a user engagement feature that may be constrained to a time window feature (e.g., the number of shares of a message within the first 10 minutes from publication of the message) to create an index feature for indexing the content within a content index. Responsive to the index feature corresponding to a search query, the content may be provided with search results for the search query. For example, the content may correspond to trending or breaking news associated with the search query.
US09646029B1
In some embodiments, an apparatus includes an instance of a distributed database at a first compute device configured to be included within a set of compute devices that implement the distributed database. The apparatus also includes a processor configured to define a first event linked to a first set of events. The processor is configured to receive, from a second compute device from the set of compute devices, a signal representing a second event (1) defined by the second compute device and (2) linked to a second set of events. The processor is configured to identify an order associated with a third set of events based at least one a result of a protocol. The processor is configured to store in the instance of the distributed database the order associated with the third set of events.
US09646027B2
A method for tagging digital media is described. The method includes selecting a digital media and selecting region within the digital media. The method may further include associating a person or entity with the selected region and sending a notification of the association the person or entity or a different person or entity. The method may further include sending advertising with the notification.
US09646024B2
A map-reduce compatible distributed file system that consists of successive component layers that each provide the basis on which the next layer is built provides transactional read-write-update semantics with file chunk replication and huge file-create rates. A primitive storage layer (storage pools) knits together raw block stores and provides a storage mechanism for containers and transaction logs. Storage pools are manipulated by individual file servers. Containers provide the fundamental basis for data replication, relocation, and transactional updates. A container location database allows containers to be found among all file servers, as well as defining precedence among replicas of containers to organize transactional updates of container contents. Volumes facilitate control of data placement, creation of snapshots and mirrors, and retention of a variety of control and policy information. Key-value stores relate keys to data for such purposes as directories, container location maps, and offset maps in compressed files.
US09646017B2
Various embodiments for performing video data deduplication by a processor device are provided. An accompanying audio stream of a video stream for a selected data block is analyzed for similarity with a pre-existing data block having a predetermined value representative of a plurality of coordinate points of corresponding video at a certain time.
US09646014B1
Various computer-implemented methods for selective defragmentation are disclosed. In one example, an exemplary method for performing such a task may include: 1) identifying a file system, 2) tracking changes to files in the file system, 3) creating a list of changed files, and then 4) selectively defragmenting files in the list of changed files. Various other methods, systems, and computer-readable media are also disclosed.
US09646006B2
A method and system for matching sequentially relevant content to at least one multimedia content item (MMCI) captured by a mobile device are provided. The method includes extracting at least one MMCI from the mobile device; generating a signature for the extracted at least one MMCI; matching the generated signature to a plurality of signatures of content items; and determining, based on the matching, at least one sequentially relevant content item.
US09646005B2
A method and system for creating a database of multimedia content elements assigned to users are provided. The method comprises receiving at least one parameter identifying a user; receiving at least one multimedia content element from a user device; generating at least one signature to the at least one multimedia content element; searching for the existence of the at least multimedia content element in a database using the least one generated signature to determine whether each of the at least one multimedia content element is an existing multimedia content element or a non-existing multimedia content element; and generating a unique identifier using the at least one parameters for each non-existing multimedia content element; assigning the generated unique identifier to its respective non-existing multimedia content element; and storing each of the non-existing multimedia content elements and their respective unique identifiers in the database.
US09646002B2
There is provided a method that includes displaying, on a display, a viewing pane of available video contents including a first video content, receiving a selection of the first video content from the available video contents, transmitting a language selection and the selection of the first video content to a server, receiving a language content corresponding to the language selection and the selection of the first video content from the server, and displaying, on the display, the first video content in synchronization with playing the language content.
US09645984B2
Efficient delivery of content by virtualization of static interaction with the document object model
A method of updating a document object model (DOM) is disclosed. A message is received from a web browser requesting for information to update the DOM. A dummy response message is sent to the web browser, wherein the dummy response message does not include the information to update the DOM, and wherein the dummy response message causes the web browser to create a dummy node in the DOM. A request message is received from a client as part of a client-server protocol, wherein the request message requests at least a portion of the information to be sent to the client. A first response message is sent including at least a portion of the information to the client, wherein the first response message is processed by the client to determine a first update to the DOM, and wherein the first update is applied to the DOM.
US09645981B1
A system and machine-implemented method for providing image content corresponding to a business establishment is provided. Several webpages corresponding to a business establishment are received, and one or more webpages are selected from the several webpages, based on the content of each of the several webpages. At least one webpage related to the selected one or more webpages is retrieved. Image content is extracted from the retrieved at least one webpage. At least one annotation is generated for the extracted image content based on at least one characteristic of the extracted image content. The image content is filtered based on the generated at least one annotation for the extracted image content. The filtered image content is provided for display.
US09645974B1
The present disclosure relates to optimized matrix multiplication using vector multiplication of interleaved matrix values. Two matrices to be multiplied are organized into specially ordered vectors, which are multiplied together to produce a portion of a product matrix.
US09645969B2
An information system for automotive includes a plurality of on-vehicle devices each installed in a vehicle and a server device connected with the on-vehicle devices via a communication network. The plurality of on-vehicle devices each include an acceleration/deceleration change detection unit that detects an acceleration/deceleration change of the vehicle equipped with the on-vehicle device and a transmission unit that transmits acceleration/deceleration information pertaining to the detected acceleration/deceleration change. The server device includes a reception unit that receives the acceleration/deceleration information, a statistical parameter calculating unit that calculates statistical parameters to be used to estimate an extent of energy consumption or energy regeneration based upon the received acceleration/deceleration information, and an estimating unit for estimating the extent of energy consumption or energy regeneration based upon the calculated statistical parameters.
US09645964B2
A pipeline communication system includes a master and a plurality of slaves configured to communicate with each other. Each of the plurality of slaves includes a memory, and is configured to generate a first ready signal and a second ready signal. The first ready signal is configured to be provided only to the master and the second ready signal is configured to be provided only to each of the plurality of slaves. The second ready signal is generated independent of the error check in each of the plurality of slaves.
US09645962B2
A USB hub module which is configured to enable a vehicle's embedded USB host to connect to multiple mobile devices through a USB hub, regardless of whether the mobile devices are configured to act as USB hosts or USB devices, without providing USB OTG controllers or additional vehicle wiring or inhibiting functionality of consumer devices connected the module while one consumer device connected to the module operates in USB host mode. Preferably, the module is configured so that no additional cabling or hardware changes are required to the head unit. The module can be employed between the embedded USB host, USB hub and at least one consumer accessible USB port. When the consumer device is acting as a USB host, signals between the consumer device and the vehicle's embedded USB host are processed through a bridge, thereby rendering the consumer device compatible with the embedded USB host.
US09645960B2
A KVM (K: keyboard, V: video, M: mouse) switch to be connected between a computer, and a keyboard and a mouse, the KVM switch includes: a connector that is cascade-connected to another KVM switch; an inputter that inputs a creation instruction of control data including control information which controls the operation of the another KVM switch; a creator that creates the control data having a data format that is the same as a data format of key code data inputted from the key board or the mouse when a creation instruction of the control data is inputted, the control data including the control information and a first identifier indicative of the control data; and an outputter that outputs the created control data to the another KVM switch.
US09645951B1
Data processing and an accelerator system therefor are described. An embodiment relates generally to a data processing system. In such an embodiment, a bus and an accelerator are coupled to one another. The accelerator has an application function block. The application function block is to process data to provide processed data to storage. A network interface is coupled to obtain the processed data from the storage for transmission.
US09645946B2
Disclosed herein are techniques for encrypting data stored on a solid-state drive (SSD) managed by a system (e.g., a computing device). Specifically, the system is configured to track block units of a larger size on the SSD so that a mapping table associated with the SSD can be kept small. After running SSD encryption using the large size block units, the entire SSD can be fully encrypted without requiring clear text to be written onto the SSD subsequent to SSD encryption being activated. Thereafter, the entire SSD can be defragmented to produce a single physical extent of encrypted data.
US09645940B2
Various systems, methods, apparatuses, and computer-readable media, for accessing a storage device are described. In certain example embodiments, an active/active fault tolerant storage device comprising two or more controllers may be implemented. In one embodiment, each controller may be coupled to the non-volatile memory’ (NVM) blades comprising the non-volatile memory (NVM) storage medium. In one example implementation, a standardized protocol, such as Peripheral Component Interconnect Express protocol may be used for communicating amongst the various components of the controller and also the NVM storage medium.
US09645933B2
A dynamic cache partitioning apparatus and method is described, which may be used in a multi-core system having a plurality of cores. The apparatus includes at least one multi-core processor and at least one shared cache shared by a plurality of processing cores, the shared cache including a plurality of cache lines and being partitioned into a plurality of sub-caches including at least one private sub-cache for each single processing core and at least one public sub-cache being shared by all of the processing cores; means for detecting shared cache hit information for each respective processing core of the plurality of processing cores; and means for determining whether a cache line should be allocated to public sub-cache or to a private sub-cache associated with one of the plurality of processing cores.
US09645929B2
In a processor, a method for speculative permission acquisition for access to a shared memory. The method includes receiving a store from a processor core to modify a shared cache line, and in response to receiving the store, marking the cache line as speculative. The cache line is then modified in accordance with the store. Upon receiving a modification permission, the modified cache line is subsequently committed.
US09645927B2
A module of cache coherence management by directory, in which each datum stored in cache memory is associated with a state, at least one of which indicates data sharing among a plurality of processors, the module including a storage unit to store a directory containing a list of cache memory addresses, each address possibly associated with a state corresponding to the state of the datum available at this address, and a processing unit configured to update said list, said processing unit being configured so as not to list the address lines related to data associated with the first state.
US09645923B1
The subject technology discloses configurations for determining a list of wrappers in a new space of a host heap that include a reference to at least one object in a guest heap; marking a set of objects in a new space of the guest heap; building an eden graph for the guest heap; marking a set of objects in the new space of the host heap based on a reachability in the eden graph; determining a list of marked wrappers from the host heap that are included in the eden graph of the guest heap; marking a set of wrappers in the new space of the guest heap that are included in the list of marked wrappers in the eden graph; and collecting a set of unmarked objects from the host heap and the guest heap.
US09645922B2
A storage device, such as a NAND flash device, includes a controller that maintains a temperature for a plurality of data blocks, the temperature calculated according to a function that increases with a number of valid data objects in the block and recency with which the valid data objects have been accessed. Blocks with the lowest temperature are selected for garbage collection. Recency for a block is determined based on a number of valid data objects stored in the block that are referenced in a hot list of a LRU list. During garbage collection, data objects that are least recently used are invalidated to reduce write amplification.
US09645918B2
Storage devices including a flash memory and a memory controller, and write memory block allocating methods of the storage devices are provided. A write memory block allocating method may include storing a pre-allocation table in a Random Access Memory (RAM) of a memory controller. The pre-allocation table may include allocation order information of a pre-allocated memory block included in a flash memory. The method may also include receiving a write request from a host, determining whether a write memory block for the write request can be allocated according to the pre-allocation table and allocating the pre-allocated memory block as the write memory block according to the pre-allocation table when the write memory block can be allocated according to the pre-allocation table.
US09645917B2
Systems and methods for efficiently using solid-state devices are provided. Some embodiments provide for a data processing system that uses a non-volatile solid-state device as a circular log, with the goal of aligning data access patterns to the underlying, hidden device implementation, in order to maximize performance. In addition, metadata can be interspersed with data in order to align data access patterns to the underlying device implementation. Multiple input/output (I/O) buffers can also be used to pipeline insertions of metadata and data into a linear log. The observed queuing behavior of the multiple I/O buffers can be used to determine when the utilization of the storage device is approaching saturation (e.g., in order to predict excessively-long response times). Then, the I/O load on the storage device may be shed when utilization approaches saturation. As a result, the overall response time of the system is improved.
US09645914B1
Systems and techniques are disclosed for providing a standard version of an application to a first user, receiving a request for the application from a second user, identifying the second user as a test user, and providing a second version of the application to the second user based on the identification. Interaction events with the second version of the application, by the second user, may be reported and used by the arrangement to modify the second version of the application. Alternatively, a second user may reject the second version of the application and the second user's status may be modified based on the rejection.
US09645911B2
A method for debugging firmware/software by generating trace data includes the following steps: running a debug module in a power-on stage in a test system, to record a load address and a branch instruction execution record set of a tested module into an area for temporary storage; accessing, by an analyzer, in an operating system stage in the area for temporary storage, the load address and the branch instruction execution record set and accessing a program debug symbol table, where the program debug symbol table is generated when source program code is compiled; and finding, by the analyzer, an original source file, a function name, and line numbers of executed codes from the program debug symbol table according to the load address and the branch instruction execution record set to generate an analysis report that includes a program execution path and a program code coverage.
US09645909B2
An operation management apparatus to improve the accuracy of the estimation of the processing performance needed for the execution environment of the migration-destination, is provides, which is performed in system migration. In an operation management apparatus 100, a correlation model storage unit 112 stores a correlation model indicating a correlation for each pair of one or more metrics in a state of executing a predetermined program in a first processing system. A benchmark performance collection unit 103 collects values of a metric having a correlation with another metric in the correlation model in a state of executing a predetermined benchmark process in the first processing system and a second processing system, respectively. A performance comparison unit 104 calculates and outputs a performance ratio of a metric in the second processing system to the metric in the first processing system, based on the values of the metrics in the state of executing the predetermined benchmark process in the first processing system and the second processing system, respectively.
US09645904B2
A technique is provided for accumulating failures. A failure of a first row is detected in a group of array macros, the first row having first row address values. A mask has mask bits corresponding to each of the first row address values. The mask bits are initially in active status. A failure of a second row, having second row address values, is detected. When none of the first row address values matches the second row address values, and when mask bits are all in the active status, the array macros are determined to be bad. When at least one of the first row address values matches the second row address values, mask bits that correspond to at least one of the first row address values that match are kept in active status, and mask bits that correspond to non-matching first address values are set to inactive status.
US09645899B1
According to one aspect of the present invention there is provided a system, method, and computer program product for recovering from a network failure in a communication network using network function virtualization (NFV-based network), the method including: selecting a first network component of the NFV-based network, detecting at least one probable failure of the first network component, identifying at least one virtual network function (VNF) instance using the first network component, selecting a second network component to be used by same VNF for replacing the VNF instance in the first network component when the first network component is faulty, and securing at least one resource of the second network component for the VNF.
US09645898B2
A controller module (CM) includes buffers that feed back signals output using respective signal lines used for mutual communication with other CM, and a first detecting unit and a second detecting unit that detect abnormality such that the levels of the signals output using the signal lines do not change from respective specific levels when each level of the fed-back signals does not coincide with an expected level being a level previously determined according to a predetermined timing.
US09645897B2
A method for processing a data object access request in a storage system having storage devices can include receiving an access request for accessing a first data object, the request being received by a controller that stores at least two consecutive data objects received by the storage system in different storage devices. The method may then include detecting that the first data object is corrupted, and determining, in response to the detecting, that a second data object has identical data as the first data object. Determining that the second data object has identical information as the first data object can include determining that a first metadata tag corresponding with the first data object and a second metadata tag corresponding with the second data object are identical. The second data object can then be provided in a response to the access request.
US09645890B2
A method is now provided that improve backing up data sets. Each database transaction is registered to a central repository prior to starting the database transaction, each database transaction comprising a plurality of writes to be executed for a database application on a database, and quiescing all database transactions registered to the central repository to thereby wait for all ongoing writes of the database transactions registered to the central repository to complete and to release control of the database to the database application.
US09645888B1
Contents of a plurality of backups that share a common characteristic are profiled. A portion of the plurality of backups is selected as a base backup reference data to be distributed. A first copy of the base backup reference data is stored at a storage of a backup server. A second copy of the base backup reference data is provided for storage at a storage of a client that shares the common characteristic. The client is located remotely from the backup server.
US09645887B2
A system and method for firmware upgrade in an AMI are provided. A remote server provides a firmware image file. After receiving the firmware image file and verifying the remote server, a data concentrator transmits at least one encoding symbol generated from the firmware image file to at least one meter through broadcasting and a retransmission mechanism of minimum retransmission contents. Upon receiving a predetermined number of encoding symbols, each meter recovers the original firmware image file from the received encoding symbols. Then, each meter receives and verifies an activation code generated by the remote server before carrying out the firmware upgrade.
US09645882B2
A state matcher for a logic circuit may detect at least one of a buggy state of the logic circuit, a precursor to a buggy state of the logic circuit and a verified state of the logic circuit based on a plurality of signal values indicative of a state of the logic circuit. A recovery controller for a microprocessor may reconfigure the microprocessor to a trusted feature mode in response to receiving a signal indicating that the microprocessor is in a predefined state and operate the microprocessor in the trusted feature mode for a predetermined period of time.
US09645881B2
One or more techniques and/or systems are provided for profiling a dataset. For example, a snapshot of a volume may be evaluated to identify a set of data characteristics, such as file and directory size information. A baseline dataset profile of a dataset of data within the volume may be constructed based upon the set of data characteristics. Histograms and graphs of directory counts and file counts may be constructed based upon the baseline dataset profile. An incremental dataset profile may be constructed for the dataset based upon an evaluation of the snapshot and a subsequent snapshot of the volume. Histograms and graphs of directories and files that are modified, created, and/or deleted may be constructed based upon the incremental dataset profile. Performance predictions, analytics, field diagnostics of performance issues, and/or scheduling of service execution may be implemented for a storage network hosting the volume based upon dataset profiles.
US09645880B2
A system and a method for providing software supportability involve a server receiving a first electronic record from a client application on a mobile computing device. The first electronic record describes activity that occurred at the mobile computing device during a request sent from the client application to the server. The server creates a second electronic record that describes activity that occurred at the server while processing the request. The first electronic record and the second electronic record are stored in association with each other and can be analyzed to determine issues with performance or security. A diagnostic application, based on the stored first electronic record and the second electronic record, identifies at least one faulty component at the server or the mobile computing device to correct the identified at least one faulty component.
US09645870B2
Systems and methods for generating DMA transaction trace records are described. One example system includes a controller that includes a trace module. The trace module receives transfer requests for direct memory access channels, receives timestamps indicative of a transfer request time, generates trace records, wherein each trace record includes a respective timestamp indicative of a transfer request time, generates save commands, and delivers the trace records and the save commands as outputs. The system includes a storage module for saving trace records.
US09645869B2
A method of using exception information for binary code. The method comprises: receiving exception information relating to an exception occurring during execution of binary code, the exception information including a code reference identifying a function executing while the exception occurred, and a line number for that function. The method also comprises: accessing intermediate code using the code reference and the line number to obtain intermediate code fragments; converting the intermediate code fragments to a source code approximation; and providing the source code approximation and function name to a log for subsequent analysis.
US09645868B2
A wrapped application may be stored in memory of a mobile device. The wrapped application includes application code and an application wrapper, and the application code integrates primary and secondary application modules and a policy monitoring plugin module. Operations of the application code may be executed on a processor of the mobile device using system events and/or API calls. Responsive to executing operations of the primary/secondary application modules of the application code, consumption of a mobile device resource by the secondary application module may be monitored using the policy monitoring plugin module of the application. Responsive to the consumption of the mobile device resource by the secondary application module exceeding a threshold, a notification of the consumption may be transmitted through a wireless communication interface of the mobile device to a third party source of the application code using the policy monitoring plugin module of the application.
US09645863B2
In an image forming device which is capable of executing an application program, a plurality of interface providing units are arranged each providing the application program with an interface which enables the application program to use a function of the image forming device. A selecting unit selects at least one of the plurality of interface providing units as an object of use for the application program based on a result of comparison of information stored in a storage device and indicating an execution environment of each of the plurality of interface providing units with information stored in the storage device and indicating an execution environment of the image forming device.
US09645858B2
A deployment system enables a developer to define a logical, multi-tier application blueprint that can be used to create and manage (e.g., redeploy, upgrade, backup, patch) multiple applications in a cloud infrastructure. In the application blueprint, the developer models an overall application architecture, or topology, that includes individual and clustered nodes (e.g., VMs), logical templates, cloud providers, deployment environments, software services, application-specific code, properties, and dependencies between top-tier and second-tier components. The application can be deployed according to the application blueprint, which means any needed VMs are provisioned from the cloud infrastructure, and application components and software services are installed.
US09645857B2
In accordance with at least some embodiments, a system includes a plurality of partitions, each partition having its own operating system (OS) and workload. The system also includes a plurality of resources assignable to the plurality of partitions. The system also includes management logic coupled to the plurality of partitions and the plurality of resources. The management logic is configured to set priority rules for each of the plurality of partitions based on user input. The management logic performs automated resource fault management for the resources assigned to the plurality of partitions based on the priority rules.
US09645844B2
System and method embodiments are provided for multi-version support in indexes in a database. The embodiments enable substantially optimized multi-version support in index and avoid backfill of commit log sequence number (LSN) for a transaction identifier (TxID). In an embodiment, a method in a data processing system for managing a database includes determining with the data processing system whether a record is deleted according to a delete indicator in an index leaf page record corresponding to the record; and determining with the data processing system, when the record is not deleted, whether the record is visible according to a new record indicator in the index leaf page record and according to a comparison of a system commit TxID at the transaction start with a record commit TxID obtained from the index leaf page record.
US09645834B2
Methods for remotely configuring application software on a user device are described. The application software defines at least one operating parameter having a set of pre-defined values which change the way the application interacts with the operating system. The operating parameter can be configured remotely and pushed to the user device where it is enforced by the application. Methods for providing information of the operating parameter to a remote device and for updating the configuration of an application are also described.
US09645817B1
Methods, systems, and apparatus, including computer programs encoded on computer storage media, for computing a contextual ranking for a developer. One of the methods includes computing a predicted violation value for each developer in a context group. An actual violation value is computed for each developer in the context group. A score for each developer in the context group is computed, wherein the score represents a distance between the actual violation value for the developer and the predicted violation value for the developer. A contextual ranking is generated of the plurality of developers in the context group based on the score for each developer in the context group.
US09645813B2
A synchronized media project, synchronization SDK, and synchronization service enable multiple users to produce a media composition collaboratively. A media project includes composition assets that reference media assets. A synchronization SDK enables multiple applications to edit the media project independent of an internal organization of the project. A project synchronization service synchronizes copies of media projects located on clients with a server-based versioned master project. User-selectable project synchronization modes determine whether media project assets are stored on clients, on the server, or on both, and when media assets are transferred. Synchronized media projects include composition assets in proprietary formats and in interoperable formats. Interoperable composition assets are rendered from proprietary composition assets on a track-by-track basis.
US09645811B2
In one embodiment, a method detects a failure of a container in a controller node where the container includes a service being performed and isolated from other services being performed in other containers on the controller node. The controller node terminates the container including the service and determines a known state for the service. The known state is known to be operational without including a cause of the failure and the service operated from the known state saving changes to the known state during operation separately from the known state. The controller node restarts the service in a new container that replaces the terminated container where the restarted service starts from the known state without using the changes.
US09645803B2
One or more regions of COBOL source code having an entry point are identified. A PERFORM instruction associated with the entry point to analyze is selected. A PERFORM range for the selected PERFORM instruction is determined. An instruction that changes control flow in execution of the COBOL source code subsequent to the selected PERFORM instruction is identified. Flow-affected code resulting from the instruction is determined. An adjusted PERFORM range for the selected PERFORM instruction is formed.
US09645800B2
In system for enabling static vulnerability analysis of a software/web application that includes an indirectly modeled language portion and a directly modeled language portion, an indirectly modeled language information extractor select nodes of certain types from a syntax tree corresponding to the indirectly modeled language source code. Generally, the types of nodes that are selected are relevant to taint propagation. For one or more of the selected nodes, one or more statements corresponding to one or more of a type of the node, an input to the node, and an object associated with the node are generated. A static analyzer configured for a directly modeled language may perform vulnerability analysis of the software/web application using the generated statements.
US09645793B2
According to one embodiment, a permutation generator is described comprising a memory configured to store, for each number of a predetermined set of numbers, whether the number has already been included in a number sequence; a receiver configured to receive a random number; a determiner configured to select a number from those numbers of the set of numbers that have not yet been included in the number sequence as next element of the number sequence based on the random number and an output configured to output the selected number as the next element of the number sequence.
US09645790B2
The present disclosure relates to an add and decode hardware logic circuit for adding two n bit inputs, A and B. A series of n logic stages are each configured to perform a first operation of propagating a result of a preceding stage on the condition that the sum of A[m] and B[m] is equal to 0, wherein 0<=m
US09645783B2
This invention provides a technique capable of efficiently setting a projector. A display instruction to display the setting window of at least one of a plurality of projectors is accepted. If a predetermined area on a multi-projection area in which the setting window of the projector is displayed crosses display areas of a plurality of second projectors of the plurality of projectors, each of the plurality of second projectors displays a partial image of the setting window in response to acceptance of the display instruction.
US09645782B2
A first workspace, which may include one or more windows, may be associated with a first display device. A second workspace, which may also include one or more windows, may be associated with a second display device. The first and second workspaces may be provided for display to the first and second display devices, respectively. The first and second display devices may be independent such that manipulation a window of the first workspace across a coordinate location of the second display device does not affect the second display device.
US09645779B2
A job processing apparatus for displaying job items. The apparatus includes a display unit that displays a collection of the job items as many as a specific number of the job items being obtained from each of at least one information storage device in response to a request, the request indicating both the specific number and a first condition specifying which of the job items are to be obtained; and a job item request unit that responds to a user operation by sending to the at least one information storage device a request indicating both the specific number and a second condition specifying which of the job items are to be obtained, thereby obtaining from the at least one information storage device the specific number of job items that are different from the specific number of original job items, wherein the second condition is different from the first condition.
US09645774B2
Systems and methods for managing print jobs associated with multiple customers. Customer-editable design templates for printed products and design software tools enabling creation by customers of custom print product designs are provided, via a network, to multiple customers operating corresponding electronic devices. Individual print jobs corresponding to custom print product designs created by multiple different customers via the electronic devices are received and automatically aggregated into an aggregate print job comprising individual print jobs from different customers. The aggregated individual print jobs in the aggregate print job are printed simultaneously on one or more units of a shared substrate when the aggregate print job is printed.
US09645772B2
A non-transitory computer-readable recording medium having recorded thereon a printer driver allowing a computer including a nonvolatile memory to issue a print instruction causing a printing device to execute printing. The printer driver causes the computer to execute: displaying separate reception regions each corresponding to a different printing device and each including one or more configurable items that are related to printing and variable from reception region to reception region; when receiving a configuration with respect to a configurable item included in a reception region, storing the configuration to the nonvolatile memory to be associated with a printing device corresponding to the reception region; and when receiving a designation of a printing device corresponding to a reception region, reading out each configuration associated with the printing device from the nonvolatile memory, and presenting the each configuration so as to be usable in issuing a print instruction.
US09645770B2
A first information processing apparatus inputs job data and a corresponding file associated with the job data to a hot folder of a second information processing apparatus. When the second information processing apparatus detects the corresponding file input to the hot folder, it determines whether the job data has been copied in the hot folder. If it is determined that the job data has been copied in the hot folder, the job data is processed.
US09645769B2
A storage device may include a non-volatile memory; and a controller. The controller may be configured to: operate the data storage device in a standard mode by at least throttling performance, and, responsive to detecting a power loss condition, operate the data storage device in a shutdown mode by at least disabling the throttling.
US09645766B1
Emulating tape data includes providing a first storage device coupled to a host, providing a tape emulation unit coupled to the host, the tape emulation unit including a data mover, and, in response to a command to transfer data between the first storage device and the tape emulation unit, transferring data directly between the first storage device and the data mover using a link therebetween, where data that is transferred bypasses the host. The tape emulation unit may include a front end component coupled to the host and a second storage device, the data mover being interposed between the second storage device and the front end component. The front end component may be coupled to the data mover using a GigE switch. The data mover may use NFS to access data. At least one of the first and second data storage devices may be data storage arrays.
US09645757B2
A memory module determines that the memory module is connected to a memory module connector. The memory module receives the connector ID from the connector and communicates, to the connector, a memory module ID associated with the memory module. A connector-module ID token is generated using the connector ID and the memory module ID. It is determined that the connector-module ID token was not received from the connector within a predetermined time window. Data on the memory module is erased in response to not receiving the connector-module ID.
US09645752B1
Systems and methods for utilization of notification or ordering commands are disclosed that can enable more efficient processing of flush requests from software programs and increase data consistency in storage devices. A storage device can obtain a notification command from a host system identifying one or more data items in a cache of the storage device, determine whether the one or more data items have been committed to non-volatile memory of the storage device, and transmit a notification to the host system upon determining that the one or more data items have been committed. The host system may utilize these commands to process flush requests, such that upon receiving a flush request, a notification command may be issued requesting a notification from the storage device that the relevant data has been committed. Notification commands can target or limit the scope of a flush request, such that the speed and efficiency of the flush request processed using notification commands is increased relative to a non-specific full-cache flush. Such increases in efficiency of flush requests may greatly increase the speed and efficiency of storage devices, and consequently the performance of programs utilizing such storage devices.
US09645748B2
A method and system for transmission path optimization in an Internet Small Computer System Interface (iSCSI) storage area network architecture comprises a storage device downloading input/output (I/O) profiles from an SAN Software Defined Network (SDN) application and a host computer connected to the storage device via various transmission paths, to access a first virtual disk. The storage device analyzes iSCSI packets in the first virtual disk, and calculates I/O data of the first virtual disk and updated I/O data (for second I/O profile) at time intervals. The storage device can determine to change the first I/O profile of the first virtual disk as against the second I/O profile and the SAN SDN application can command an SDN controller to optimize the transmission path between the host computer and the first virtual disk by making the change, based on comparisons against the second I/O profile.
US09645747B2
Embodiments of the present invention provide systems, methods, and computer program products for managing computing devices to handle an input/output (I/O) request. In one embodiment, the I/O request may eligible for performance throttling based, at least in part, on the associated importance level for performing the received I/O request and one or more characteristics of the received I/O request. Embodiments of the present invention provide systems, methods, and computer program products for throttling the I/O request and transmitting the I/O request to a storage controller.
US09645746B2
Systems and methods are provided for supporting use of non-volatile memory (NVM) on a double data rate (DDR) memory channel for an information handling system so that non-volatile memory devices (e.g., such as Phase Change Memory “PCM” devices) may be employed for main memory usage. In one possible implementation, information handling system memory reads may be managed directly in hardware as memory semantics via use code, while memory writes may be separately handled, e.g., via an operating system (OS)/driver. In another possible implementation, both DRAM-based and NVM-based memory systems may be populated for an information handling system.
US09645743B2
Systems, methods, and apparatus to identify and prioritize application processes in one or more subsystems. Some embodiments identifying applications and processes associated with each application executing on a system, apply one or more priority rules to the identified applications and processes to generate priority information, and transmit the priority information to a subsystem. The subsystem then matches received requests with the priority information and services the processes according to the priority information.
US09645742B2
A storage module and host device for storage module defragmentation are disclosed. In one embodiment, a host controller sends a storage module a first set of logical block addresses of a file stored in the storage module. The host controller receives a metric from the storage module indicative of a fragmentation level of the file in physical blocks of memory in the storage module. If the metric is greater than a threshold, the host controller reads the file and then writes it back to the storage module using a different set of logical block addresses. To avoid sending the file back and forth, in another embodiment, the host controller sends the fragmentation threshold and the different set of logical block addresses to the storage module. The storage module then moves the file itself if the metric indicative of the fragmentation level is greater than the threshold. Other embodiments are provided.
US09645730B2
Disclosed are a method and an apparatus for providing a user interface of a portable terminal. The method includes displaying a lock screen; detecting a request to display an auxiliary including a plurality of modes on the lock screen; and displaying the auxiliary window in a specific mode among the plurality of modes on a side of the lock screen in response to the detecting indicating that the request for the display of the auxiliary window is detected, wherein the specific mode is changed in response to a mode changing event.
US09645723B2
Concepts and technologies are described herein for row and column navigation. In accordance with the concepts and technologies disclosed herein, a user device executes an application program configured to present data in a user interface (“UI”). The user device can execute a navigation controller to detect touch events at the user device. The navigation controller can determine if touch events correspond to input for panning or scrolling the UIs and for implementing the requested panning or scrolling. The navigation controller can include functionality for providing a touch event handler to detect input for panning or scrolling the data and a UI scrolling manager that implements the requested panning or scrolling. The panning or scrolling can be tracked and the data, as modified in accordance with the tracked movement, can be presented to a user in a UI.
US09645719B2
This disclosure describes a user interface (UI) conceptual model and a data model for quickly and easily developing and managing a GUI. The present methods and systems described herein provide for defining one or more UI elements in the UI conceptual model. The one or more UI elements may further reference one or more model objects in the data model. The one or more model objects may include one or more tasks, which may each be mapped to one or more commands for performing each task, or one or more data items, which may each be mapped to rules or conditions for transforming data. According to embodiments, graphics or functionality of a GUI may be easily and efficiently modified by adding, deleting, or modifying UI elements in the UI conceptual model or by adding, deleting, or modifying referenced model objects in the data model, thereby reducing management and development costs.
US09645717B2
Content and a selection activation element are presented on a touchscreen. First input generated by a user holding the selection activation element on the touchscreen is received. While the user is holding the selection activation element, a selection mode is activated. While the user is holding the selection activation element, second input is received generated by the user selecting at least part of the content according to the selection mode. The user releases the selection activation element. The selection mode is deactivated and a contextual menu with one or more user-selectable operation identifiers for the selected part of the content is presented. Third input is received generated by the user selecting at least one of the user-selectable operation identifiers. An operation corresponding to the at least one selected operation identifier is performed.
US09645712B2
Methods and apparatus, including computer program products, implementing and using techniques for providing a customized representation of a business process involving one or more organizational entities that are accessible through a network. A user interface that can display a customized representation of a business process is provided. User information, including user privileges associated with the business process, is stored in a central repository that is accessible through the network. A request to view the business process is received from a first user through the user interface. The user privileges for the first user are retrieved from the central repository. A customized representation of the business process is displayed with the user interface. The customized representation is in compliance with the retrieved user privileges for the first user.
US09645703B2
A computer processor determines a first span of a communication, wherein a span includes content associated with one or more dialog statements. If the content of the first span contains one or more topic change indicators which are identified by at least one detector of a learning model, the computer processor, in response, generates scores for each of the one or more indicators. The computer processor aggregates scores of the one or more indicators of the first span, which may be weighted, to produce an aggregate score. The computer processor compares the aggregate score to a threshold value, wherein the threshold value is determined during training of the learning model, and the computer processor, in response to the aggregate score crossing the threshold value, determines a topic change has occurred within the first span.
US09645702B2
A method includes monitoring an activity stream to identify actions that match stored sponsored story specifications, for providing one or more sponsored stories to a viewing user. The sponsored story specifications include a visual specification for the sponsored story, and matched sponsored stories are ranked for a viewing user. Users can set privacy preferences related to sponsored stories. The ranking and privacy settings contribute to which sponsored stories are provided for display to the viewing user.
US09645701B2
An electronic apparatus, a display control system, a display control method, and a display control program stored on a recording medium, each of which determines one or more display components to be displayed together with an application user interface, using display size information, priority order information, and display condition information that are previously stored for each one of the display components.
US09645694B2
The conductive film which can inhibit the occurrence of moire and can greatly improve recognition property, a display device equipped with the conductive film, and a method for determining a pattern of a conductive film are provide. In the conductive film, a spectral intensity of moire of a lowest frequency is equal to or less than −3.6 expressed in terms of common logarithm, and the spectral intensity is represented by convolution of spatial frequency characteristics of the mesh pattern that are obtained at least when the mesh pattern is observed from a front side and spatial frequency characteristics of the pixel array pattern of the display unit that are obtained at least when the pixel array pattern is observed from a front side. The mesh pattern may include a plurality of disconnection portions.
US09645683B2
A recognition method for an input device is disclosed in the present invention, which is applied to an electronic device with a capacitive touch screen having a function of height detection, different input devices have different electric field height information. The method includes: obtaining the electric field height information of the input device, upon detection of a touch control operation of the input device; and determining attribute information of the input device according to a preset correspondence between the electric field height information and the attribute information of the input device. In the recognition method for the input device disclosed in the present disclosure, after it is determined that a touch control operation is performed on the capacitive touch screen by the input device, the electric field height information of the input device is obtained.
US09645680B1
A method and apparatus for creating an adaptive mosaic pixel-wise virtual Bayer pattern. The method may include receiving a plurality of monochromatic images from an array of imaging elements, creating a reference ordered set at infinity from the plurality of monochromatic images, running a demosaicing process on the reference ordered set, and creating a color image from the demosaiced ordered set. One or more offset artifacts resulting from the demosaicing process may be computed at a distance other than infinity, the ordered set may be modified in accordance with the computed offsets.
US09645679B2
A touch screen assembly including a display, infra-red light emitters, photo diodes, a transparent frame including an exposed upper edge along its perimeter, and internally reflective facets for directing light emitted by the emitters along light paths that travel upward through one side of the frame, over the display screen, downward through the opposite side of the frame, and onto the photo diodes, and a processor operative to identify a location of an object touching the display, based on amounts of light detected by photo diodes when light emitted by light emitters is blocked along its light path by the object, and to recognize the object touching an outer wall of the frame, based on amounts of light detected by activated photo diodes when light emitted by activated emitters is absorbed along its light path by the object at the outer wall, thereby providing touch sensitivity to the frame itself.
US09645678B2
A display device includes a projection unit adapted to display an image on a screen, a position detection unit adapted to detect a pointed position of a pointing body in the screen, and a control section adapted to perform a function related to an operation corresponding to an operation area in a case in which the operation area is disposed outside a display area of the image in the screen, and the pointed position detected by the position detection section is located within the operation area.
US09645674B2
A positioning method for positioning two touch points of self-capacitive touch sensing devices is disclosed. The method includes: applying a first driving signals to the N rows of row sensors in sequence to determine the row sensors having the touch points; applying a second driving signals to the M columns of column sensors to determine the column sensor having touch points; applying a third driving signals to the row sensors or the column sensors; detecting a delay time period of the third driving signals within the row sensors or the column sensor so as to determine coordinates of the real touch points in accordance with the delay time period. In addition, a self-capacitive touch sensing device adopting the above method and a display device incorporating the above touch sensing device are also disclosed.
US09645671B2
Array substrate, display panel and display device are provided. The array substrate includes: N sensor units; N signal detection terminals; a first control signal terminal; and a reference signal terminal, wherein ith sensor unit comprises inductor, capacitor and first switch transistor, first terminal of inductor and first polar plate of capacitor are connected with ith signal detection terminal, second terminal of inductor is connected with first terminal of first switch transistor, second polar plate of capacitor and second terminal of first switch transistor are connected with reference signal terminal, control terminal of first switch transistor is connected with first control signal terminal, during capacitive touch control stage, first switch transistor is turned off, and ith signal detection terminal outputs a capacitive detection signal; during inductive touch control stage, first switch transistor is turned on, and ith signal detection terminal outputs inductive detection signal. Thickness of the display device is reduced.
US09645667B2
A touch switch module according to one embodiment comprises a panel, a touch sensor and a control unit. The control unit includes a touch time detecting unit, a comparing unit, an output unit and an output forbidding unit. The touch time detecting unit detects touch time for which a touch is performed. The comparing unit compares the touch time with a predetermined threshold. The output unit outputs an operation signal when the touch time is the threshold or more. The output forbidding unit forbids output of the operation signal when the touch time is less than the threshold. The touch includes successive touches performed in succession in a short time period, and a single touch performed at one time. The threshold includes a successive touch threshold and a single touch threshold. The successive touch threshold and the single touch threshold are different from each other.
US09645655B2
A method and apparatus is provided for implementing integrated keys on a user input device. In one embodiment, the method includes detecting an initial input in either a first or second proximity sensor device. The first proximity sensor device may be integrated into a first key of the user input device and the second proximity sensor device may be integrated into a second key of the user input device that is proximate to the first key. The method may further include starting a first timer upon sensing the initial input. The method may further activate one of a first input mode or second input mode. The first input mode may be activated absent detection of a key input before the first timer expires. The second input mode is activated if a key input is detected before the first timer expires.
US09645652B2
A system is provided that includes sensor(s) configured to provide sensed input including measurements of motion of a user during performance of a task, and in which the motion may include a gesture performed in one of a plurality of 3D zones in an environment of the user that are defined to accept respective, distinct gestures. A front-end system may receive and process the sensed input including the measurements to identify the gesture and from the gesture, identify operations of an electronic resource. The front-end system may identify the gesture based on the one of the plurality of 3D zones in which the gesture is performed. The front-end system may then form and communicate an input to cause the electronic resource to perform the operations and produce an output. And the front-end system may receive the output from the electronic resource, and communicate the output to a display device.
US09645651B2
Techniques are described herein that are capable of causing a control interface to be presented on a touch-enabled device based on a motion or absence thereof. A motion, such as a hover gesture, can be detected and the control interface presented in response to the detection. Alternatively, absence of a motion can be detected and the control interface presented in response to the detection. A hover gesture can occur without a user physically touching a touch screen of a touch-enabled device. Instead, the user's finger or fingers can be positioned at a spaced distance above the touch screen. The touch screen can detect that the user's fingers are proximate to the touch screen, such as through capacitive sensing. Additionally, finger movement can be detected while the fingers are hovering to expand the existing options for gesture input.
US09645647B2
One illustrative haptic output device disclosed herein includes a connector configured to couple the haptic output device to a modular computing device. The modular computing device includes an outer housing configured to mechanically and electrically couple with one or more external electronic modules. The haptic output device also includes a receiver configured to receive a haptic signal from a processor. The processor is configured to receive a signal; determine a haptic effect based in part on the signal; generate the haptic signal based on the haptic effect; and transmit the haptic signal. The haptic output device is configured to output the haptic effect responsive to receiving the haptic signal.
US09645645B2
An electronic device includes a touch panel, a plurality of tactile sensation providing units configured to provide a tactile sensation to a contact object in contact with the touch panel, and a plurality of first controllers configured to control drive of the plurality of tactile sensation providing units. A first controller of the plurality of first controllers outputs, to a further first controller, a synchronization signal that drives a tactile sensation providing unit associated with the further first controller.
US09645636B2
An example method is provided to perform centralized power management for a distributed storage system accessible by a cluster in a virtualized computing environment. The method may comprise a management entity identifying a first host from the cluster to enter into a partial suspend mode, and selecting a second host from the cluster to take control of a storage controller of the first host. The method may further comprise the management entity transferring control of the storage controller to the second host to allow the second host to control the storage controller via a network controller of the first host; and instructing the first host to enter into the partial suspend mode to suspend operations of one or more components of the first host while the storage controller is controllable by the second host via the network controller.
US09645635B2
A power-gating array configured to power gate a logic block includes multiple zones of sleep field-effect transistors (FETs). A zone controller coupled to the power-gating array selectively enables a certain number of zones within the array depending on the voltage drawn by the logic block. When the logic block draws a lower voltage, the zone controller enables a lower number of zones. When the logic block draws a higher voltage, the zone controller enables a greater number of zones. One advantage of the disclosed technique is that sleep FET usage is reduced, thereby countering the effects of FET deterioration due to BTI and TDDB. Accordingly, the lifetime of sleep FETs configured to perform power gating for logic blocks may be extended.
US09645634B2
In accordance with embodiments of the present disclosure, an information handling system may include at least one information handling resource and a controller. The controller may be configured to receive signals from a plurality of power supply units, each signal indicative of a temperature associated with a respective power supply of the plurality of power supply units. The controller may also be configured to determine, for each of the plurality of power supply units, a respective derating limit based on the respective signal indicative of the temperature for such power supply unit. The controller may be further configured to communicate messages to each of the plurality of power supply units, each message indicative of the respective derating limit determined with respect to such power supply unit.
US09645631B2
Embodiments generally relate to a memory device. In one embodiment, the memory device includes a clock receiver circuit that receives an external clock signal and provides an internal clock signal. The memory device also includes a delay-locked loop circuit (DLL) having an input, and a circuit that receives the internal clock signal. The circuit selects which pulses of the internal clock signal are applied to the input of the DLL, such that no more than two clock pulses selected from at least three consecutive pulses of the external clock signal are applied to the input of the DLL during a predetermined interval. In another embodiment, a method includes receiving an external clock signal at a clock receiver circuit, receiving an internal clock signal from the clock receiver circuit, and selecting which pulses of the internal clock signal are applied to an input of a DLL, where no more than two clock pulses selected from at least three consecutive pulses of the external clock signal are applied to the input of the DLL during a predetermined interval.
US09645629B2
Energy consumption analytics of a cloud based service is provided. An application such as a power analytics application monitors power consumption data of a server of the cloud based service. The power consumption data of the server is captured in a data file, a data store, a temporary storage, etc. The power consumption data is analyzed to detect power consumption metrics for the server. The power consumption metrics are presented in a business intelligence data structure.
US09645621B2
A single pin is used to control an operating mode of an integrated circuit and to supply serial data to a host controller. The internal operating mode can be changed by changing a static level on an input/output terminal and maintaining that static level longer than a first time threshold. A read transaction from the integrated circuit can be performed in response to a predetermined sequence on the input/output terminal that includes a pulse that lasts a first predetermined time, the first predetermined time being less than the first time threshold.
US09645620B2
An electronic system includes an expansion base and an electronic device. The expansion base includes a base body, a first pipe line, a liquid cooler and a driving unit. The base body includes a first connecting portion disposed in the base body. The liquid cooler is connected to the first connecting portion via the first pipe line. The driving unit connects the first pipe line. The electronic device includes a main body, a second pipe line and a liquid block. The main body includes a second connecting portion, and the second pipe line is connected to the second connection portion. The liquid block is connected to the second connecting portion via the second pipe line. The first connecting portion can be connected to the second connecting portion to form a circulation flow channel to drive heat exchange medium in the circulation flow channel by the driving unit.
US09645617B2
A memory device comprising a temperature sensor mounted on a surface of a substrate, the temperature sensor in electrical communication with a heating element and configured to activate the heating element in response to detecting a temperature below a predetermined temperature threshold. The heating element is in thermal communication with a solid state memory configured to store computer readable data. A universal serial bus (USB) driver is also mounted to the substrate, in electrical communication with the memory, and configured to communicate with another USB device via a USB channel in order to transfer data to and from the memory. The memory device can be enclosed in a protective backshell canister connected to the MIL-DTL-38999 type connector to provide a fully ruggedized, fully sealed device to withstand and operate effectively in extreme environmental conditions.
US09645607B2
A handheld communication device includes first and second screen assemblies, each including a screen having an active display area and housing having a rear surface, and a side surface extending between a periphery of the screen and the rear surface of the housing and a hinge connected to the first and second screen assemblies, whereby, when the hinge is in the fully opened position, the hinge is configured to enable a distance between the first and second active display areas to be no more than about 10 mm.
US09645605B2
Display apparatuses and methods are provided. A display apparatus includes a display module, a driving device that is configured to deform the display module from a flat surface state to a curved surface state and deform the display module from the flat surface state to the curved surface state, and a base member that is disposed at a rear of the display module and supports the driving device.
US09645595B2
The present invention relates to a method for measuring the frequency of phasor of a power system, belonging to the technical field of power systems and automation thereof. A grid-connected photovoltaic generation system is provided with a control module, a data buffer module, an inverter, a sampling module and an analog-to-digital conversion module; a voltage transformer is connected to the grid side of the grid-connected photovoltaic generation system; the voltage transformer is electrically connected to the analog-to-digital conversion module; the analog-to-digital conversion module converts an analog signal sent by the voltage transformer into a digital signal; the sampling module samples the digital signal and transmits the digital signal into the data buffer module; the data buffer module is provided with a plurality of data windows; and the control module receives signals from the data windows.
US09645593B2
Provided is a voltage regulator in which an output current can be controlled stably and accurately to an overcurrent protection set value without the need of providing a phase compensation circuit including an element having a large area. The voltage regulator includes a constant voltage control circuit including: a first differential amplifier circuit for comparing a first reference voltage and a feedback voltage to each other; and an output transistor to be controlled by an output voltage of the first differential amplifier circuit, and an overcurrent protective circuit including: a resistor for measuring the output current; a second differential amplifier circuit for measuring a difference between voltages at both terminals of the resistor; a comparator for comparing an output voltage of the second differential amplifier circuit and a second reference voltage to each other; and a switch to be controlled by a detection signal of the comparator. When the output current equal to or larger than an overcurrent protection set value flows, the output voltage of the second differential amplifier circuit is input to the first differential amplifier circuit via the switch, to thereby switch control of the output transistor from control based on the constant voltage control circuit to control based on the overcurrent protective circuit.
US09645585B2
A variable flow rate gas control valve for use in consumer and commercial appliances is presented. The valve utilizes two or more solenoids to control the operating position of two different valve members whose orifices are sized in an exponential relationship with one another. By opening one or more of the valving members in various combinations, a variable flow rate of gaseous fuel may be controlled in integer multiple steps from full off to full on. The solenoid configurations may be in line, opposing, or symmetrical about an axis of the valve. The number of unique flow rates (F) is related to the number of solenoids (N) as F=2N. The relationship between the size (S) of the individual gas control orifices for each of the solenoids is related to N by the relationship S=2n−1 for each individual gas control orifice (n) numbered 1 to N.
US09645580B2
A homeostatic flying hovercraft preferably utilizes at least two pairs of counter-rotating ducted fans to generate lift like a hovercraft and utilizes a homeostatic hover control system to create a flying craft that is easily controlled. The homeostatic hover control system provides true homeostasis of the craft with a true fly-by-wire flight control and control-by-wire system control.
US09645577B1
Among other things, an operation related to control of a vehicle is facilitated by actions that include the following. A finite set of candidate trajectories of the vehicle is generated that begin at a location of the vehicle as of a given time. The candidate trajectories are based on a state of the vehicle and on possible behaviors of the vehicle and of the environment as of the location of the vehicle and the given time. A putative optimal trajectory is selected from among the candidate trajectories based on costs associated with the candidate trajectories. The costs include costs associated with violations of rules of operation of the vehicle. The selected putative optimal trajectory is used to facilitate the operation related to control of the vehicle.
US09645574B2
The invention relates to a method for monitoring the condition of rotor blades for wind turbines. It is therefore the object of the invention to increase the accuracy of the monitoring of the condition of rotor blades of wind turbines and to allow a localization of faults or defects and their exact description. In the method in accordance with the invention, eigenvibrations of a rotor blade occurring globally at the rotor blade and locally guided elastic waves are permanently detected with time and spatial resolution using a sensor network and actuator network attached to the rotor blade or using a network arrangement of ultrasound transducers. In addition, elastic waves which are guided periodically at predefinable time intervals and which are respectively emitted by an actuator or ultrasound transducer and detected by sensors or ultrasound transducers are in so doing inspected for variations of the emitted waves.
US09645571B2
Embodiments are directed to receiving, by a computing device comprising a processor, an anticipated usage input, a load input and a strength input associated with a unit, calculating, by the computing device, a baseline reliability value based at least in part on the anticipated usage input, the load input and the strength input, receiving, by the computing device, usage data associated with use of the unit, generating, by the computing device, an updated reliability value based on at least some of the inputs used to calculate the baseline reliability value and the usage data, and determining, by the computing device, a lifetime for the unit based on the updated reliability value.
US09645557B2
A system for geothermal process optimization can include a receiver configured to receive brine conditions sensed at a head of a production well of a geothermal power plant and a first circuit configured to determine an analyte value according to the sensed brine conditions. Also, the system can include a second circuit configured to determine a product dosage value for a product, according to the analyte value, product information, and historical power plant data. The product dosage value can be an amount of the product suggested to adequately prevent buildup, corrosion, or a combination thereof at a given part of the geothermal power plant, such as the production well.
US09645554B2
A parameter setting apparatus includes a calculator calculating a first resonance frequency ωr1 of a structure composed of a table, a rotor of a drive motor, and an object and a second resonance frequency ωr2 of a structure composed of a stator of the drive motor and a base using equations given below, and a setter setting a frequency band to be removed for a first damping filter based on the calculated first resonance frequency ωr1 and setting a frequency band to be removed for a second damping filter based on the second resonance frequency ωr2.
US09645549B2
A balance spring includes a strip of polygonal section wound on itself into several coils. At least one coil of the balance spring includes a coil spacer device including at least four stop members mounted on the same face and protruding from the thickness of the at least one coil of the strip. Each of the at least four stop members is arranged to enter into contact with the opposite face of another coil of the strip preventing the other coil from touching the at least one coil in the event of a shock.
US09645547B2
An image forming apparatus to form an image electro-photographically is provided. The image forming apparatus includes a housing formed to have an opening; a cover being movable between an open position and an exposing position and having a ventilation port, through which air is allowed to flow; a cartridge having a developer roller and being detachably attached to a body of the image forming apparatus through the opening; a discharging fan arranged on an opposite side from the opening across the cartridge; a handle arranged on the cartridge to extend from the cartridge in a direction toward the opening in an upper position with respect to the ventilation port, when the cartridge is attached to the body and the opening is covered by the cover; and a facing part arranged on the cover to face the handle in a vertically displaced position with respect to the handle.
US09645546B2
Provided are a storage chip, an imaging cartridge, a method for changing a serial number and a method of using the storage chip. The storage chip includes a communication unit, a control unit and a storage unit; the storage unit stores information of multiple different serial numbers and mark information or access mark information about whether a currently-selected serial number is legal; the control unit determines whether the serial number information sent to the imaging device is determined as legal according to a preset strategy and autonomously changes the selected serial number information when a preset condition is satisfied according to the determination result, so that the method of changing the serial number of the storage chip is more convenient, user experience is greatly improved and the problem that the storage chips are unusable because of the same serial number can be solved.
US09645535B2
A fixing device includes a rotational member configured to convey and heat a sheet-shaped recording medium, the rotational member including a first heating member and a second heating member provided in parallel to a rotational axis of the rotational member in an interior thereof, the first heating member including a first heat generation part, the second heating member including a second heat generation part and an auxiliary heat generation part adjacent to the second heat generation part, a common temperature sensor configured to sense a temperature of the first heating member and a temperature of the second heating member, and a control part configured to control a ratio of a rate of lighting of the first heating member and a rate of lighting of the second heating member based on the temperature of the first heating member and the temperature of the second heating member.
US09645531B2
Provided is an image forming apparatus, wherein when it is predicted that a surface potential of at least one of a plurality of photosensitive drums becomes less than the predetermined potential, whenever transfer of toner images corresponding to a predetermined number of sheets is completed by a plurality of transfer rollers, continuous print is interrupted for a predetermined time, a voltage with a polarity equal to a polarity of toner is applied to the plurality of transfer rollers by a power supply or the application of the voltage to the plurality of transfer rollers is stopped during the predetermined time.
US09645530B2
An image forming apparatus includes an image bearer, a transfer device contacting the image bearer to form a transfer portion, a transfer bias power source, and a controller. A ratio of a time period of application of the opposite-directional bias to a total time period of one cycle of the AC component of the superimposed bias is greater than 50%. A ratio of a value of the DC component of the superimposed bias output within a region ranging from a leading end of the recording medium to a predetermined length to a value of the DC component of the superimposed bias output outside the region is greater than a ratio of a value of the AC component of the superimposed bias output within the region to a value of the AC component of the superimposed bias output outside the region.
US09645524B2
An image forming apparatus includes a unit arranging portion that is provided with a unit containing a powder tank; a determination unit that determines the unit provided in the unit arranging portion; and a control unit that supplies a recording medium from a first sheet feeding portion in a case where the determination unit determines that the unit provided in the unit arranging portion is a unit corresponding to a binder toner, and supplies the recording medium from a second sheet feeding portion different from the first sheet feeding portion in a case where the determination unit determines that the unit provided in the unit arranging portion is a unit corresponding to a toner of a predetermined color.
US09645523B2
Provided is a technique for manufacturing a toner supply roller in which the toner conveying performance and the scraping performance of unneeded toner are excellent as well as the above-mentioned problems in molding can be resolved. Also provided is a method for manufacturing a toner supply roller including: an insertion process in which a roller member 10 comprising a shaft 11 and an elastic layer 12 composed of a foam having a columnar shape supported on the outer periphery of the shaft is inserted into a cylindrical forming tool m having on the inner peripheral surface irregular concaves and convexes or a recessed groove along the longitudinal direction; a transfer process in which the roller member inserted into the cylindrical forming tool is heated and the irregular concaves and convexes or the recessed groove along the longitudinal direction on the inner peripheral surface of the cylindrical forming tool are transferred on the surface of the roller member; and a releasing process in which the roller member on the surface of which the irregular concaves and convexes or the recessed groove along the longitudinal direction are transferred is taken out from the cylindrical forming tool to obtain a roller.
US09645522B2
Provided is an optical scanning apparatus, including: a deflection unit; and an imaging optical element (IOE) guiding a light flux deflected by deflection unit onto a scanned surface, in which, an fθ coefficient of IOE, a focal length of IOE, and when an intersection between deflection unit and an optical axis of IOE is set as an origin, a coordinate in an optical axis direction (OAD) of an intersection between a principal ray of an outermost off-axis light flux and an incident surface of IOE, a coordinate in OAD of an intersection between principal ray of outermost off-axis light flux and an exit surface of IOE, a coordinate in OAD of an intersection between a principal ray of an on-axis light flux and the incident surface, and a coordinate in OAD of an intersection between principal ray of on-axis light flux and the exit surface are appropriately set.
US09645515B2
An electrophotographic photosensitive member capable of outputting an image with suppressed positive ghosting, and a process cartridge and an electrophotographic apparatus each having the electrophotographic photosensitive member are provided. The electrophotographic photosensitive member has a photosensitive layer including a phthalocyanine crystal in which the compound represented by the formula (1) is contained, wherein the content of the compound represented by the formula (1) is 0.1% by mass or more and 1.7% by mass or less based on the phthalocyanine crystal.
US09645511B2
The invention relates to a lithography system, for example for projecting an image or an image pattern on to a target (1) such as a wafer, said target being included in said system by means of a target table (2), clamping means being present for clamping said target on said table. Said clamping means comprises a layer or stationary liquid (3), included at such thickness between target and target table that, provided the material of the liquid (C) and of the respective contacting faces (A, B) of the target (1) and target table (2), a pressure drop (PCap) arises.
US09645501B2
An illumination optical unit for EUV projection lithography guides illumination light to an illumination field, in which a lithography mask can be arranged. A facet mirror with a plurality of facets guides the illumination light to the illumination field. Respectively one illumination channel which guides an illumination light partial beam is predetermined by one of the facets. Exactly one illumination channel is guided over respectively one of the facets. The illumination optical unit is configured so that, at any time and at any point in the illumination field when the illumination optical unit is in operation, any pairs of illumination light partial beams guided over different illumination channels are incident on this illumination field point at times of incidence, the time difference of which is greater than a coherence duration of the illumination light.
US09645497B2
A method for lithography patterning includes providing a substrate; forming a material layer over the substrate; exposing the material layer to a radiation, resulting in an exposed material layer; and removing a portion of the exposed material layer in a developer, resulting in a patterned material layer. The developer is an alkaline aqueous solution having an organic base that is a quaternary ammonium hydroxide. In an embodiment, the organic base has a bulky group in its side chain, reducing its etching distance. In another embodiment, the organic base includes electron withdrawing groups, reducing its basicity. In yet another embodiment, the developer has a loading of the quaternary amine ranging from about 0.01% to about 2.37%. The developer results in reduced line edge roughness and reduced line width roughness in the patterned material layer.
US09645482B2
The technology described herein relates generally to a projection system having a fail-safe feature for use in a presentation or display. In one example a projection system having at least one main projector projects a first image onto a main projection area of a projection surface. The projection system may further include a relief projector that when activated projects a second image onto a backup projection area of the projection surface. The projection system may be provided with a sensor capable of sensing at least one characteristic of the at least one main projector, the main projection area, or the projection surface. The projection system may include a control system in communication with the sensor, wherein the control system activates the relief projector in response to the sensor.
US09645475B2
A rotatable support apparatus for a camera is provided. The rotatable support apparatus comprises a support arm having a first end section and a second end section displaced from the first end section; an actuator positioned at the first end section of the support arm and capable of providing an actuating force or signal between the first end section and the second end section; and a support assembly positioned at the second end of the support arm and comprising a mount capable of supporting a camera and a rotational member adapted to translate the actuating force or signal from the actuator into rotational motion of the mount.
US09645473B2
The endoscope apparatus includes a focus control section that performs a focus control process that controls a plurality of in-focus object plane position, the plurality of in-focus object plane positions being set discretely, a switch control section that switches the focus control process between an autofocus control process and a manual focus control process, and an operation section that is operated by a user, when the operation section has been operated by the user during a period in which the focus control section performs the autofocus control process, the switch control section switching the focus control process from the autofocus control process to the manual focus control process, and the focus control section moving the in-focus object plane position to an in-focus object plane position among the plurality of in-focus object plane positions that differs from the in-focus object plane position when the operation section has been operated.
US09645453B2
The present invention provides a liquid crystal panel and a display device, the liquid crystal panel comprising: an upper substrate and a lower substrate disposed opposite each other; and a liquid crystal layer therebetween. A plurality of first common electrodes and a plurality of first pixel electrodes alternately arranged are formed on the lower substrate, and a plurality of second common electrodes or second pixel electrodes are formed on the upper substrate. Positions where the plurality of second common electrodes or second pixel electrodes are formed correspond to positions where the plurality of first electrodes or first pixel electrodes are formed. According to technical solutions of the present invention, electric field distribution in liquid crystal layer of the liquid crystal panel may be improved, transmittance of the liquid crystal panel may be increased, and voltage of the pixel electrode corresponding to the maximum transmittance may be lowered.
US09645448B2
A display panel, a manufacturing method thereof and a display device are provided. The display panel comprises: a first substrate and a second substrate which are opposite to each other to form a cell through a sealant. A first sealant-blocking structure configured to prevent the sealant from extending toward an edge of the display panel is formed on the first substrate and/or the second substrate. The display panel effectively prevents the sealant from extending toward the edge of the display panel by forming the first sealant-blocking structure on an outside of the sealant, and hence achieves an ultra-narrow frame or unframed design.
US09645428B2
A display panel is provided. The display panel includes a first substrate, a second substrate, a sealing frame set, and a third adhesion portion. The first substrate has an inner surface which includes a superposed area and an exposed area on a side of the superposed area. The second substrate is disposed and superposed on the superposed area; the substrates have a space therebetween. The sealing frame set is located between the substrates and disposed along and insides an edge of the superposed area to enclose the space. The sealing frame set includes first and second sealing frames, wherein the first sealing frame connects the substrates and surrounds the superposed area, the second sealing frame surrounds an outer side of the first sealing frame. A third adhesion portion is located between the first and the second substrates, and between the second sealing frame and the exposed area.
US09645420B2
A display panel that includes a flexible substrate is provided. The flexible substrate includes a first corner, and a plurality of display elements disposed on the first substrate. The flexible substrate also includes a first primary edge and a second primary edge which extend in different directions to meet at the first corner, and the first corner includes a first edge having a polygonal shape with n (n is a natural number of 2 or more) vertexes.
US09645410B2
A pair of foldable eyeglasses may have a number of hinged connections allowing for the folding of the individual components in a number of ways. The eyeglasses may also be folded into a magnifier. The eyeglasses may also be folded up entirely for transport or storage purposes. The eyeglasses have lenses with a frame and temple pieces extending from the frame. When folded, the eyeglasses take advantage of connectors on each the outer edge of the frame and the outer edge of the temple pieces. These connectors permit the eyeglasses to be folded into the magnifier form, as well as provide stability and protection when folded. In other embodiments, magnets or similar connection mechanisms are used to hold the eyeglasses in a storage or magnifying position(s).
US09645409B2
A pair of foldable spectacles has a two-lens front piece (30) to which two side pieces (20a, 20b) are pivotally connected by means of resilient corner hinges (25). The front piece (30) has a central hinge assembly (40) by means of which the front piece can be folded to a position where its lenses (31, 32) are held between and protected by the side pieces (20a, 20b). Each side piece (20a, 20b) has a first portion (21) which is connected to the front lens piece (30) by a resilient corner hinge (25), a second portion (22) which forms a free end portion of the side piece, and a resilient transition portion (23) between the first and second portions (21, 22). Thanks to the resilient corner hinges (25) and the resilient transition portion (23) of the two side pieces (20a, 20b), the spectacles (10) in use are held in place in a reliable manner since the side pieces (20a, 20b) are pressed against the side of the user's head.
