US10812055B2
Embodiments herein disclose a flip flop comprising at least one of a slave circuit and a retention circuit receiving an input from a master circuit. The output circuit receives an input (X1) from at least one of the slave circuit and the retention circuit. A first node and a second node in the retention circuit receive a power supply from a global power supply through transistors, when a retention is 0 in the retention circuit, so that the slave circuit retains a current state of the X1 and X2 irrespective of a clock input in the slave circuit, and the output circuit receives the stored state of the retention circuit, when a local power supply is turned ON.
US10812054B2
A digitally-controlled oscillator (DCO) includes a current mirror configured to generate a reference current at a first output terminal thereof, and a supply current having a magnitude proportional to a magnitude of the reference current at a second output terminal thereof. An oscillation circuit is provided, which is responsive to the supply current at an input node thereof. This oscillation circuit generates a periodic output signal having a frequency that varies in response to changes in the magnitude of the supply current. A variable resistance circuit is provided, which is responsive to a first control signal having a magnitude that influences a value of a resistance provided between a first node thereof, which receives the reference current, and a second node thereof. A negative feedback circuit is provided, which has first and second current carrying terminals electrically coupled to the first output terminal of the current mirror and the first node of the variable resistance circuit, respectively, and a control terminal electrically coupled to the input node of the oscillation circuit.
US10812053B2
Provided is a transmission device including: a first transmitter that has a plurality of drivers that each enable transmission of a signal using a plurality of voltages including a first voltage, a second voltage, and a third voltage between the first voltage and the second voltage, and that transmits a sequence of symbols; a second transmitter that has a plurality of drivers that each enable transmission of a signal using the plurality of voltages, and that transmits a sequence of symbols; and a voltage generator that generates the third voltage. Each of the drivers of the first transmitter and the drivers of the second transmitter has a switch that transmits the third voltage generated by the voltage generator to an output terminal of the driver through turn-on operation of the switch.
US10812052B2
A 1st frequency reduction circuit of a filter of the invention downsamples the sampling rate of a signal source to a predetermined value to obtain a 1st PCM stream, a 1st frequency raising circuit raises the sampling rate of the 1st PCM stream to be the same as that of the signal source, a 1st delay circuit delays a stream of the signal source, such that its phase is the same as that of the 1st PCM stream, a 1st adder subtracts the frequency raised 1st PCM steam from the delayed stream of the signal source to obtain a passband 1, a j-th frequency reduction circuit downsamples the sampling rate of a (j−1)-th PCM stream to a predetermined value to obtain a j-th PCM stream, wherein 2≤j≤n, a j-th frequency raising circuit raises the sampling rate of the j-th PCM stream to be the same as that of the (j−1)-th PCM stream, a j-th delay circuit delays the (j−1)-th PCM stream, such that its phase is the same as that of the j-th PCM stream, a j-th adder subtracts the frequency raised j-th PCM stream from the delayed (j−1)-th PCM stream to obtain a passband j, and when j=n, the j-th PCM stream is a passband n+1.
US10812046B2
A micromechanical resonator is provided that enables a smaller total package size with an acceptable quality factor for timing applications. The MEMS resonator includes a vibration portion with a base and three or more vibrating beams extending therefrom. Moreover, the MEMS resonator includes a frame that surrounds a periphery of the vibration portion and a pair of anchor between the vibrating beams for stabilizing the vibration portion within the frame. Furthermore, support beams couple the base of the vibration portion to the pair of anchors.
US10812038B2
Temperature compensation of an acoustic stack is disclosed. A first temperature compensation layer is disposed between a first surface of a substrate and a second surface of a piezoelectric layer; and a second temperature compensation layer is disposed over the plurality of electrodes. A temperature coefficient of frequency (TCF) of the acoustic stack is approximately zero (0.0) over a frequency range of Band 13.
US10812034B2
In an actuator driver array, each actuator driver includes a transition stage to initiate a state change of a driver output signal, a static stage to maintain the state change, and an isolation resistor to couple the driver output signal to an output node of the actuator driver during a static mode. In an array of pad capacitors, each pad capacitor has: a first terminal at a connector pad communicatively coupled to the output node; and a second terminal coupled to an RF ground rail. The isolation resistor and the pad capacitor form a low-pass filter to filter RF harmonics from a respective actuator driver to respective actuator circuitry, and to filter RF energy generated outside of the respective actuator driver to its output node. In an RF actuator array, a state of each element is controllable by a corresponding actuator driver in the actuator driver array.
US10812032B2
A method of automatically decreasing volume includes detecting a volume of a sound generated by an electronic device; determining whether the volume is in a first volume range or in a second volume range, wherein the volume in the first volume range is higher than the volume in the second volume range; calculating a first single drop amount according to the volume when the volume is in the first volume range; and calculating a second single drop amount according to the volume when the volume is in the second volume range, wherein the second single drop amount is less than the first single drop amount.
US10812030B2
Aspects and examples described herein provide a variable gain amplifier circuit and assembly. In one example, a variable gain amplifier circuit includes a signal input, a signal output, and a variable gain amplifier including a plurality of unit cell groups coupled between the signal input and the signal output, the variable gain amplifier configured to provide an adjustable gain to a signal received at the signal input during each of a plurality of amplify modes of the variable gain amplifier, each of the plurality of amplify modes corresponding to at least one unit cell group of the plurality of unit cell groups. A bypass path including a fixed attenuator is coupled in parallel with the variable gain amplifier between the signal input and the signal output to selectively couple the signal input to the signal output through the fixed attenuator during a bypass mode.
US10812027B2
An isolation circuit and a method for providing isolation between two dies are provided. The isolation circuit includes: an isolation module, configured to generate an isolation signal based on an input signal from a first die and to provide isolation between the first die and a second die, where the isolation signal is smaller than the input signal in amplitude, and the first die is coupled with the second die; a latch module, configured to latch the isolation signal at a certain level and output a latched signal; an amplifier module, configured to amplify the latched signal. In the isolation circuit, a modulation module and a demodulation module can be saved.
US10812023B2
Disclosed herein are circuits, devices and methods that address challenges associated with power amplifier systems. A power amplifier system includes two or more fast error amplifiers coupled to corresponding power amplifiers. The fast error amplifiers are configured to generate envelope tracking signals based on a signal envelope, the envelope tracking signals modifying a DC-DC regulated voltage from a DC-DC converter to more efficiently operate the power amplifiers. By splitting the envelope tracking between two or more fast error amplifiers and amplification between corresponding two or more power amplifiers, the power, frequency or bandwidth, linearity, signal-to-noise ratio, efficiency, or the like of the power amplifier system can be improved. Wireless communications configurations with such power amplifier systems can provide uplink carrier aggregation and/or cellular signals based on standards and protocols that require increased bandwidth and/or power.
US10812020B1
Pulsed radiation is generated at a power level that depends on a voltage level, frequency and duty cycle of a pulsed high voltage. A pulsing switch generates the pulsed high voltage from a high voltage and a pulse control signal. The pulsing switch has first and second bi-polar active switches connected in series between a high voltage conductor and a ground conductor. The pulsed high voltage is produced at a connection between the first and second bi-polar active switches when the first and second bi-polar active switches are repeatedly pulsed on and off to alternatingly connect the high voltage conductor and the ground conductor to a pulsed voltage output.
US10812018B2
An oscillator start-up circuit and methodology for oscillator start-up is disclosed. The circuit includes a reference bias switch coupled to a reference node and a load node of a transconductor of an oscillator. The reference bias switch is responsive to a control signal for start-up of the oscillator and operable to close at a first time prior to start-up of the oscillator to maintain a voltage at the reference node equal to a voltage at the load node prior to application of bias to the transconductor. The reference bias switch is further operable to open at a second time subsequent to the first time. In one embodiment, a separate reference bias voltage is applied to a reference node of the transconductor.
US10812010B2
A mounting structure for a photovoltaic module, the photovoltaic module including: a plurality of power generating elements; and a housing having a metal bottom plate on which the plurality of power generating elements are arrayed, and a resin side wall frame standing along an outer edge of the bottom plate, the mounting structure including: a support plate having a support face configured to be in contact with an outer face of the bottom plate to support the photovoltaic module; a washer to be disposed on one face which is an inner face of the bottom plate or a face, of the support plate, at a side opposite to the support face; and a rivet having a shank portion and a head, the shank portion being configured to be passed through the support plate and the bottom plate to be inserted into the washer, the head formed at one end portion of the shank portion, the rivet being configured to sandwich and fasten the support plate and the bottom plate between the washer and the head by an other end portion of the shank portion being deformed so as to have an enlarged diameter.
US10811995B2
A device which, through its self-oscillation, generates a stable high voltage DC or AC output from a low voltage DC input. The device automatically maintains a desired voltage on an output capacitor, despite changes in output load or input voltage. The device is capable of dead-short operation, capacitor charging, high voltage step-up, high efficiency, and high power density. The capability to step up low voltage to high voltage in such a manner paves the way for advancement in battery-to-grid inverter technology, portable welding devices, portable medical devices, aircraft and spacecraft propulsion devices among many other areas.
US10811994B2
A multi-phase multi-stage power converter includes a phase module having a power converter module formed of two-pole submodules connected in series and having a plurality of semiconductor switches connected in series, an energy store charged and discharged by the semiconductor switches, a bypass switch short-circuiting the energy store upon exceeding a first limit voltage, and a signal input for a blocking signal opening all semiconductor switches. The submodules are protected from overloading in a simpler manner by connecting a module arrester in parallel with the power converter module. The module arrester limits the power converter voltage like a valve upon exceeding a second limit voltage. The module arrester operates in blocking mode below the second limit voltage and in conducting mode above the second limit voltage. A current limiting the power converter voltage flows through the module arrester in conducting mode.
US10811990B1
An active rectifier includes first and second DC nodes, a switching circuit, and a controller configured to compute a voltage reference according to a load signal of the DC output, and a non-linear relationship between a load condition of the DC output and a DC bus voltage at the DC output, and to generate rectifier switching control signals according to the voltage reference to cause the switching circuit to convert AC input power from the AC input to control the DC bus voltage at the DC output.
US10811982B2
A power converter includes an input circuit, an output circuit and a controller. The output circuit may include a plurality of output terminals configured to be connected to a plurality of loads. The input circuit may include a plurality of input terminals configured to be connected to one or more power sources. An inductive element may be coupled between the input circuit and the output circuit. The output circuit may feature one or more voltage compensation circuits connected between two output terminals, the voltage compensation circuits activated to compensate an output voltage at one of the two output terminals.
US10811981B2
A power converter including: a dual output resonant converter including a first output, a second output, a common mode control input, and a differential mode control input, wherein a voltage/current at the first output and a voltage/current at the second output are controlled in response to a common mode control signal received at the common mode control input and a differential mode control signal received at the differential mode control input; and a dual output controller including a first error signal input, a second error signal input, a delta power signal input, a common mode control output, and a differential mode control output, wherein the dual output controller is configured to generate the common mode control signal and the differential mode control signal in response to a first error signal received at the first error signal input and a second error signal received at the second error signal input, wherein the first error signal is a function of the voltage/current at the first output and the second error signal is a function of the voltage/current at the second output, and wherein the common mode control signal is output from the common mode control output and the differential mode control signal is output from the differential mode control output, wherein the differential mode signal is limited by a differential mode signal limiting circuit.
US10811979B2
The combined voltage regulator and snubber circuit generally has a voltage regulator device in parallel with the energy storage element of the snubber circuit operatively connectable in series with a leakage inductance current path; the leakage inductance being part of a magnetic component utilized in a switch-mode power supply having an input voltage source, controllable semiconductor switches, freewheeling semiconductor switches, feedback controller, reactive energy storage components and a load; the voltage regulator generally providing constant or variable voltage to the gate driver of the controllable semiconductor and/or feedback controller; the snubber circuit generally recycling leakage inductance energy to the input capacitor of a neighboring cell in a multi-cell stacked converter.
US10811974B1
A hybrid power converter and a method with low power losses over an extended conversion range are presented. The converter maintains low conversion losses associated with reduced inductor ripples not only for a single conversion ratio, but over a wide range of conversion ratios. The power converter has a ground terminal, an input terminal for receiving an input voltage and an output terminal for providing an output voltage with a target conversion ratio. The power converter has an inductor; a first flying capacitor selectively coupled to the inductor; a second flying capacitor selectively coupled to the inductor; a network of switches; and a driver adapted to operate the converter in a first mode associated with a first range of conversion ratios.
US10811972B2
In an embodiment, a power supply includes first and second supply input nodes, a supply output node, first and second switch circuits, a filter circuit, and a drive circuit. The first and second supply input nodes are respectively configured to receive first and second input voltages, and the supply output node is configured to provide an output voltage. The first switch circuit has a first conduction node coupled to the first supply input node, a second conduction node, and a control node configured to receive a first control signal, and the filter circuit has a first node coupled to the second conduction node and has a second node. The second switch circuit has a first conduction node coupled to the second node of the filter circuit, a second conduction node coupled to the second supply input node, and a control node. And the drive circuit has an input node coupled to one of the control node of the first switch circuit and the first node of the filter circuit, and has an output node coupled to the control node of the second switch circuit.
US10811968B2
The disclosed technology can be used to convert direct-current voltage and current from an input to a different or the same voltage and current at an output. One example direct-current to direct-current (DC-DC) power converter includes a first switch connected between a source voltage and a first side of an inductor, a second switch connected between the first side of the inductor and a ground, a third switch connected between a second side of the inductor and the ground, and a fourth switch connected between the second side of the inductor and a capacitor. The power converter may further include a comparator configured to compare an output voltage at the capacitor to a threshold voltage and based on the result of the comparison selectively activate or deactivate the first, second, third, and fourth switches in a power cycle.
US10811953B2
A power supply device comprises: a first switching circuit that includes a series circuit, connected between a predetermined voltage level and a ground level, having a high side switching element and a low side switching element connected in series that are alternately turned on and off at a predetermined frequency; a second switching circuit that includes a switching element controlled between on and off, the switching element having one end being connected to the ground level, and that makes an ON time point of the switching element variable; and a control unit that performs control such that ON time points of the switching element and the high side switching element are not overlapped with each other.
US10811952B2
Systems, methods, and devices implement direct current (DC)-DC converters having fast wake up times and low ripple effects. Methods include determining a DC-DC converter is to be transitioned from an operational mode to a low power mode, and storing a voltage at an input of a comparator coupled to an input of a charge pump, the voltage being stored in a feedback capacitor of a feedback regulation loop. The methods further include uncoupling a voltage trimming circuit from the input of the comparator, and maintaining, at least in part, the stored voltage at the feedback capacitor during the low power mode.
US10811947B2
Obtain a rotary electric machine in which attachment of a sensor stator to a case having a cylindrical shape is not required, and a stator is inserted to the case having a cylindrical shape, whereby the sensor stator can be easily arranged at the inside of the case having a cylindrical shape. The rotary electric machine includes a rotor and a sensor rotor, which are maintained to a rotary shaft and are arranged in a shaft direction of the rotary shaft; a stator which is faced to the rotor and is arranged at the inside of a case having a cylindrical shape; and a sensor stator which is supported to sensor supporting components which are provided at end portions in a shaft direction of the stator, and is faced to the sensor rotor and is arranged.
US10811946B1
An electrical system includes a power inverter connected to a battery and outputting a polyphase voltage, and a cycloidal reluctance machine. A machine rotor provides output torque, and is surrounded and separated from the stator by an airgap. The rotor includes permanent magnets providing a fixed-orientation rotor field. The stator includes windings proximate the permanent magnets and electrically connected to the inverter to form stator electromagnets. The rotor field augments the stator field to boost output torque. The rotor is eccentrically positioned with respect to the stator to move with two degrees of freedom (2DOF), including rotating motion and orbiting motion about a center axis of the stator. A rotor constraint mechanism constrains motion of the rotor, such that the rotor is able to generate and transmit the output torque to a coupled load in at least one of the 2DOF.
US10811945B2
The permanent magnet machine includes a stator, a rotor inside the stator and a ferromagnetic component fixed axially movably to the rotor. The ferromagnetic component is configured for actuating axially toward the rotor to weaken a magnetic field of the rotor. The method of constructing a permanent magnet machine includes providing a stator and a rotor inside the stator; and axially movably fixing a ferromagnetic component to the rotor such that the ferromagnetic component is configured for actuating axially toward the rotor to weaken a magnetic field of the rotor.
US10811940B2
A motor device that can secure the detection precision of the rotational angle of a motor is provided. A motor device has a motor housing, a heat sink, a motor cover, a motor, and a substrate. An opening portion of the motor housing is covered by the motor cover which is made of a magnetic body such as iron in a roofed tubular shape. A choke coil is provided on a surface of the substrate on the side opposite to the motor. A magnetic sensor is provided on a surface of the substrate on the side of the motor. A housing portion is provided at a roof portion of the motor cover. The choke coil, which is mounted on the substrate, is surrounded by the housing portion.
US10811933B2
This motor includes a frame defining an inner space (VI) in which a rotor, a stator and a fan are housed, the frame comprising an a first opening placing the inner space (VI) of the frame in fluid communication with the outside of the frame, a second opening placing the inner space (VI) of the frame in fluid communication with the outside of the frame along a radial axis (R) substantially perpendicular to a rotation axis (X) of the rotor. The fan being arranged near the second opening and being configured to create a flow (F) of a gaseous fluid, a first acoustic attenuation device is housed in the second opening so as to partially close the second opening.
US10811930B2
An electric motor includes a housing shell, an electrical component, and a baffle for directing airflow to the electrical component. The baffle includes a baffle connection element. The shell includes a shell connection element. Interengagement of the connection elements at least substantially restricts axial shifting of the baffle.
US10811922B2
A motor includes a stator including a stator core and coils, and neutral point bus bars disposed on a first side of the coils in an axial direction. The plural coils include a first coil group of a first control system, and a second coil group of a second control system. The neutral point bus bars include a first neutral point bus bar to which the coils of the first coil group are electrically connected, and a second neutral point bus bar to which the coils of the second coil group are connected. At least two of the neutral point bus bars are disposed at positions that overlap each other in the radial direction.
US10811918B2
A stack structure of a rotor core, includes: a plurality of first core layers, each of the first core layers being formed by stacking first core sheets, each of the first core sheets including: an annular base having a shaft through-hole at a central portion thereof; a plurality of yokes spaced apart from each other to be arranged along a circumferential direction of the base and to form a plurality of magnet insertion parts for accommodating magnets; and a plurality of bridges connecting the base and the yokes; and a plurality of second core layers, each of the second core layers being formed by stacking second core sheets, each of the second core sheets including: a plurality of yokes in which the bases and the bridges are removed from the first core sheet, wherein the first core layers and the second core layers are alternately stacked.
US10811913B2
A wireless power transmission system has a wireless power receiving device that can be charged using multiple different types of wireless power transmitting devices. The different types of wireless power transmitting devices have power transmitting coils that exhibit different levels of magnetic coupling with the power receiving coil of the wireless power receiving device. The wireless power receiving device may include capacitors, resistors, and/or other loading circuits that can be independently switched into use depending on the level of magnetic coupling that is detected, on a rectified voltage level, on the size of the output load, and/or on information conveyed during handshaking operations to present a desired impedance adjustment at the power receiving coil so that data signal can be properly conveyed between the power receiving device and the power transmitting device.
US10811906B2
A resonant circuit can be used in recharging a battery. The resonant circuit includes an inductor, a first capacitor in series with the inductor, and a second capacitor in parallel with the inductor. Upon entering the field of a charging terminal a controller connected to the resonant circuit continually measures loss in the inductor and voltage on a terminal of the resonant circuit. If both are below respective predetermined thresholds, the controller decreases the capacitance of the first capacitor and increases the capacitance of the second capacitor, thereby increasing voltage from the resonant circuit to the battery.
US10811905B2
According to one embodiment, a power transmission device including a housing for landing a vehicle, and a ferromagnetic material and a power transmission coil. An outer shape of a cross-section of the housing becomes larger from a top of the housing toward a bottom of the housing, the outer shape is a non-true circle, and the outer shape is similar to an inner shape of a frame provided in the vehicle. The ferromagnetic material is within the housing, the ferromagnetic material being continuous in an up-and-down direction of the housing. The power transmission coil is within the housing, the power transmission coil being configured to surround the ferromagnetic material.
US10811896B2
A wireless power transmitter includes: an antenna for transmitting a plurality of detection powers, each of which includes direction information, in a plurality of directions, respectively; a communication circuit for receiving a communication signal including first direction information included in a first detection power from an electronic device which receives the first detection power among the plurality of detection powers; and a processor for controlling to transmit power for charging based on the first direction information included in the communication signal.
US10811895B2
A battery architecture for wireless charging with optimized wireless power flux boost and load point efficiency in an information handling system (IHS) is described. In some embodiments, an IHS may include an embedded controller (EC) and a memory coupled to the EC, the memory having program instructions stored thereon that, upon execution, cause the EC to: determine a first characteristic of a charging pad configured to provide wireless power to a charger coupled to a battery of the IHS, and select, based upon the first characteristic, a first scalar value applied to a voltage multiplier of the charging pad.
US10811880B2
Provided is a battery managing device that stores surplus power provided from a system via a power managing device, and controls the charging and discharging of a battery formed of multiple battery modules which supply stored power to the system. The battery managing device includes: a switch block that connects the multiple battery modules to the power managing device; a charging circuit that charges the battery by means of the power input from the power managing device; a smoothing circuit that discharges or charges the battery according to the real-time power deficit/surplus state of the system; and a control circuit that controls the operation of the switching block, the charging circuit, and the smoothing circuit.
US10811876B2
An energy management system receives voltage and current data from each of a plurality of fault indicators. Each fault indicator is positioned on a powerline of a power distribution system immediately upstream of a respective one of a plurality of disconnect switches. The energy management system also determines a status of each disconnect switch based on the voltage and current from the plurality of fault indicators.
US10811873B2
Electrostatic discharge (ESD) protection is provided in using a supply clamp circuit formed by an ESD event actuated transistor device. A bias current is generated in response to operation of a voltage independent current generator circuit. The bias current is sourced to ensure that the transistor device is deactuated after the ESD event is dissipated.
US10811871B2
An improved low profile surge protector is provided that minimizes the space necessary between powered devices and power sources. The present invention provides protection for overvoltage events while using existing, standard household outlets and allows for slimmer devices to mount as close as possible to a wall without leaving unappealing gaps between the device and the wall.
US10811859B2
A grounding system, structured to ground a number of cables supported by a support assembly, includes a multi-function line assembly and a number of conductive mounting assemblies. Each conductive mounting assembly is structured to be coupled to the multi-function line and to a conductive pile.
US10811856B2
A system for servicing cable includes a plurality of jaws operable between an open position for receiving a cable in a direction transverse to a cable axis such that the cable extends axially beyond the jaws in two directions, and a closed position for engaging and rotationally fixing the cable about the cable axis. A tool arrangement is disposed proximate to the base and includes at least one tool operable to perform work on the cable when the cable is engaged by the jaws. The tool arrangement is operable to perform at least one of a rotational movement around or an axial movement along the cable axis and to operate the tool.
US10811830B2
In a low-height connector combination, a duplex electrical connection socket includes: an insulation base having a tongue, and a metal housing formed with a connection slot. Heights of spaces of the connection surfaces are smaller than a large space of a standard socket having a minimum height and greater than a small space of the standard socket. A duplex electrical connection plug includes an insulation base, a metal housing and a fitting portion having two contact interface substrates and a fitting space. Heights of the contact interface substrates are smaller than a contact interface substrate of a standard plug having a minimum height and greater than the small space. The fitting portion can be bidirectionally inserted into the connection slot. Each of two fitting gaps of the fitting portion between the contact interface substrates and the connection surfaces of the tongue is smaller than 0.15 mm to form tight fitting.
US10811827B1
A power cord disconnect apparatus and methods of disconnecting a power cord. An ejection mechanism may include a scotch yoke assembly, the scotch yoke being reciprocatable to engage and eject a power cord plug out of a receptacle. The apparatus may include a power circuit with a normally-open first switch closing in response to the plug being inserted into the receptacle and a normally-closed second switch opening in response to a signal, power being transferred between the power cord and the power circuit when the first switch and second switch are closed, power being prevented if either the first or second switch opens.
US10811826B2
This application relates to monitoring of electronic devices (100) and in particular to methods and apparatus for the detection and recording of an electrical overstress applied to a connector (101, 102) of the device. The apparatus describes an integrated circuit integrated circuit (103, 105) of the host device having a first set of one or more circuit contacts (201, 203, 204, 205) for connection to a connector (101) of a host electronic device. The circuit has an electrical overstress monitor (106, 106a) for detecting and recording an electrical overstress comprising a voltage exceeding a predetermined parameter applied to at least one of said first set of circuit contacts. The electrical overstress monitor (106) may have an overvoltage detector (205) and may have a memory (206) for recording the occurrence of an overvoltage and/or a communication module (207) for communicating with other components of the host device in the event of an electrical overstress.
US10811825B2
A plug connector for data transmission, in particular an HDMI socket, is configured to include a housing, which is open at least on one side, for the insertion of a matching further plug connector, in particular an HDMI plug. The plug connector further includes a printed circuit board, which is arranged within the housing and has contact areas for the matching further plug connector, and electronic components for signal processing and/or signal conditioning, which components are arranged on the printed circuit board, wherein the side edges of the printed circuit board are received, at least in sections, in groove guides of the housing.
US10811817B1
An electrical connector includes a housing having a mating end and a wire end with a base and terminal channels extending through the base into the mating end. The terminal channels receive terminals mated with a mating electrical connector. The base has a wire support supporting wires extending from the terminals. The wire support includes support walls forming wire channels. A wire dress cover is coupled to the wire support and includes an end wall and wire pushers extending from the end wall. The wire pushers load the wires into the wire channels. The wire pushers are received in the wire channels to hold the wires in the wire channels. The wires are supported at the rear by the wire pushers and at both sides by the support walls to provide strain relief for the wires in the wire support.
US10811816B2
An improved chip assembly for use in a stapling device includes a housing assembly receivable within a reload assembly. The housing assembly includes a base member defining a cavity and an identification assembly received within the cavity. The chip assembly further includes a plug assembly configured to selectively engage the base member. The plug assembly includes a housing, a wire extending from the housing, a seal member disposed within and extending from a distal end of the housing, and first and second contact members extending through the seal member and from the housing. The seal member is configured to be frictionally received within the base member to secure the plug assembly to the housing assembly in a fluid tight manner.
US10811807B2
A flanged vehicle-mounting sleeve is provided for use in association with a heavy duty vehicle, chassis-mountable, data bus signal wiring harness coupling. The coupling includes a receptacle having a generally circular cross-section and being adapted to be accommodated in longitudinal pass-through relation by a corresponding vehicle chassis mount including a mounting aperture for the coupling. The receptacle may also include a receptacle-flange engagable in receptacle-flange matching chassis-secured relation with a compatible receptacle-flange chassis mount adjacent the vehicle chassis mounting aperture with the receptacle supported thereby in pass-thru relation with the aperture. The optional sleeve is adapted to be slidably mounted into cooperative engagement in conjoined, axially and radially fixed relation on the receptacle with an alternative sleeve-flange engagable in flange-matching chassis-secured relation adjacent the vehicle chassis mounting aperture with the receptacle supported thereby in pass-thru relation with the aperture.
US10811786B2
A high-frequency module includes a first switch circuit including a first common terminal, a second common terminal, and selection terminals, and selectively connecting the first common terminal and the second common terminal to selection terminals different from each other among the plurality of selection terminals, and a matching circuit to be connected to the second common terminal without being connected to an antenna.
US10811780B2
A slot antenna includes: a printed circuit board having a slot, a first capacitor, a radio frequency signal source, a transmission line, and a ground cable. The printed circuit board is grounded; one end of the slot is open, and the other end is closed; the first capacitor and the ground cable are disposed on the printed circuit board, the first capacitor is located on the open end of the slot, and is disposed on one side of the slot; the first capacitor is connected to the radio frequency signal source by using the transmission line, and the radio frequency signal source connects the transmission line to the ground cable; and the radio frequency signal source is configured to: stimulate a feeding signal, and feed the feeding signal to the open end of the slot by using the first capacitor.
US10811770B2
A scanning antenna includes a TFT substrate, a slot substrate, and a liquid crystal layer. The TFT substrate includes a transfer terminal section including a patch connection section formed of the same low-resistance metal film as that of a patch electrode, a first protection metal layer formed on the patch connection section, and a first insulating layer including an opening partially exposing an upper face of the first protection metal layer. The slot substrate includes a terminal section including a slot connection section formed of the same low-resistance metal film as that of the slot electrode, a second protection metal layer formed on the slot connection section, and a second insulating layer including an opening partially exposing an upper face of the second protection metal layer. The first and second protection metal layers are each formed of at least one layer selected from the group consisting of a Ti layer, a MoNb layer, a MoNbNi layer, a MoNbN layer, and a MoNbNiN layer, and have a thickness of 18 nm or greater.
US10811764B2
Disclosed is a wireless wearable electronic device having an antenna that communicatively couples the wearable electronic device to another wearable electronic device and to a remote, portable device. The antenna is generally shaped like a loop or ring, has a bow with respect to the plane of the loop or ring and operates in conjunction with the ground planes of the printed circuit boards in proximity to the antenna to form a principal omni-directional lobe about the ear of the user and a secondary lobe downwardly directed from the head of the user to communicate with the remote device.
US10811762B2
A trickle-charged RFID device includes a main antenna receiving wireless interrogator signals from one or more RFID readers, a power harvester connected with the main antenna to obtain power from the wireless interrogator signals, and an intermediate storage device connected to the power harvester to collect trickle flows of unused power harvested from wireless interrogator signals received by the RFID device that lack an inquiry for the device. The RFID device further includes a primary storage device, into which the intermediate storage device discharges its collection of trickle flows of unused power when the collection reaches a predetermined threshold level, which recharges power lost from the main storage device. The intermediate storage device can include one or more capacitors including super-capacitors, and the main storage device can include a rechargeable battery, such that the effective life of the main storage device is extended from the collected trickle flows.
US10811759B2
Antenna reflector has a reflector surface which forms a predetermined dish-like shape. The reflector surface includes an inner section which radially extends a first predetermined distance from a main dish axis. This inner section is immovably supported on a fixed backing structure. The reflector surface also includes an outer section comprising a deployable perimeter. A deployable support structure is comprised of a plurality of rib tips hingedly secured to the fixed backing structure, each having an elongated shape, and extending in a direction away from the main dish axis. The rib tips are configured to rotate on hinge members relative to the fixed backing structure from a first position in which the reflector antenna is made more compact for stowage, to a second position in which a diameter of the reflector surface is increased at a time of deployment.
US10811754B2
A power coupler includes an input port, first and second output ports and an antenna element that is electrically coupled between the first output port and the second output port or that is electrically coupled to an isolation port of the power coupler. The power coupler is configured to split a radio frequency signal incident at the input port and/or to combine radio signals incident at the respective first and second output ports.
US10811752B2
A waveguide coupler includes a waveguide having a first and a second port, and a slot formed in a broadwall of the waveguide between the first and second ports, the slot centered on the first broadwall. A plurality of shifted waveguide sections are arranged between the first and second ports and extend along a length of the waveguide. A parallel-plate transmission line structure is coupled to the slot, wherein RF signals within one of the waveguide or the parallel-plate transmission line are communicated to the other of the waveguide and the parallel-plate transmission line through the slot.
US10811751B2
Embodiments of the invention include an electromagnetic waveguide and methods of forming the electromagnetic waveguide. In an embodiment the electromagnetic waveguide includes a first spacer and a second spacer. In an embodiment, the first and second spacer each have a reentrant profile. The electromagnetic waveguide may also include a conductive body formed between in the first and second spacer, and a void formed within the conductive body. In an additional embodiment, the electromagnetic waveguide may include a first spacer and a second spacer. Additionally, the electromagnetic waveguide may include a first portion of a conductive body formed along sidewalls of the first and second spacer and a second portion of the conductive body formed between an upper portion of the first portion of the conductive body. In an embodiment, the first portion of the conductive body and the second portion of the conductive body define a void through the electromagnetic waveguide.
US10811749B2
An isolator includes a body including an input connector and an output connector. The isolator also includes an outer shield positioned at least partially around a portion of the body. The isolator also includes a coupling member electrically coupled to the outer shield and positioned at least partially within the outer shield. The isolator also includes a coaxial circuit positioned at least partially around a first portion of the coupling member. The isolator also includes a toroid positioned at least partially around a second portion of the coupling member. The toroid is configured to filter radio frequency (RF) signals. The first portion and the second portion are axially-adjacent to one another. The isolator also includes a conditioning circuit in communication with the input connector and the output connector. The conditioning circuit is configured to condition the RF signals communicated between the input connector and the output connector.
US10811742B2
The present disclosure provides a fixture, a battery unit and a battery module. The fixture comprises at least one thermal conductive plate and two support blocks. Each thermal conductive plate comprises an abutting portion, a contact portion and a connecting portion. The two support blocks are fixed on two ends of the at least one thermal conductive plate in a length direction; the abutting portion, the connecting portion and the contact portion and the two support blocks form a receiving space. The battery unit comprises at least one pouch-shaped secondary battery having a main body and the fixture, the abutting portion is attached to the main body. The battery module comprises a thermal conductive frame and the battery units. The thermal conductive frame comprises a peripheral wall and a receiving cavity, the battery units are received in the receiving cavity, the contact portion contacts the peripheral wall.
US10811739B2
A battery pack includes a plurality of batteries, a housing, a circulation path, and a blower. The circulation path includes a bottom wall side path formed between lower faces of the batteries and a bottom wall which is the bottom side of the housing. The bottom wall is provided with a plurality of beams arranged in parallel for reinforcing the housing, and the batteries are arranged on the beams. The bottom wall side path is formed as a space surrounded by the lower faces of the batteries, the bottom wall, and the beam. The width of the bottom wall side path formed between adjacent beams is set to be larger than the width of one beam.
US10811738B2
A battery modules includes a battery cell assembly including at least one battery cell, and at least one cooling fin configured to contact the at least one battery cell and to be exposed on opposite side parts of the battery cell assembly and a side part perpendicular to the opposite side parts, a first end plate including at least one first insulating member mounted contacting the at least one cooling fin exposed on the opposite side parts of the battery cell assembly, and configured to support the opposite side parts of the battery cell assembly, a second end plate coupled to the first end plate, and configured to support the side part of the battery cell assembly, a cooling plate between the second end plate and the battery cell assembly, and at least one second insulating member arranged between the cooling plate and the at least one cooling fin.
US10811734B2
A cell state acquisition apparatus and a power battery using the cell state acquisition apparatus. A cell state acquisition apparatus having an acquisition board assembly, a first interface fixed at the bottom surface of a cell, a second interface fixed at the top end of another cell and a connecting seat connecting the first interface and the second interface; the acquisition board assembly including a PCB board, a signal processing module and a communication module mounted on the PCB board and a fixed block which is matched to be inserted in the first interface; and a signal acquisition module which is used for acquiring a cell state signal corresponding to the second interface is mounted on the fixed block. The signal acquisition module is integrated with the signal processing module and the communication module via the acquisition board assembly, and the connecting seat, the first interface and the second interface are provided to mount the acquisition board assembly between the cells which are connected in series, so that the use of a connection conductive line is reduced and shortened, and a layout space is saved, thus facilitating the heat dissipation of a cell.
US10811727B2
Electrolytes and electrolyte additives for energy storage devices comprising an ether compound are disclosed. The energy storage device comprises a first electrode and a second electrode, wherein at least one of the first electrode and the second electrode is a Si-based electrode, a separator between the first electrode and the second electrode, an electrolyte, and at least one electrolyte additive selected from ether compounds.
US10811719B2
A fuel cell stack alignment system includes an alignment guide bar for positioning a plurality of stack components. Each of the stack components has an alignment slot and a spacing slot. A first alignment portion and a second alignment portion of the alignment guide bar has a shape that is complimentary to the shape of the alignment slot of each of the stack components. Abutting engagement between one of the first or second alignment portions and the alignment slot aligns each respective stack component in a respective assembly position. The other of the first and second alignment portions of each respective stack component is disposed within the spacing slot. The spacing slot has a shape that is larger than the first and second alignment portions, to provide a gap between the stack components and the alignment guide bar.
US10811716B2
An ion-conducting membrane includes: (i) a first ion-conducting layer including one or more first ion-conducting polymers; and (ii) a barrier layer including graphene-based platelets.
US10811698B2
There are included a preparing step of preparing a separator base member having a core member of which surfaces are coated with a coating material having a higher radioparency than that of the core member; a press-forming step of press-forming the separator base member in a predetermined shape; and an examining step of examining the separator base member after the press-forming step using an X-ray having an output at which the X-ray passes through the coating material.
US10811690B2
The present disclosure is directed to a zinc air cell with improved voltage and reduced polarization. The combination of an anode corrosion inhibitor with a surfactant system yields enhanced cell voltage and capacity for the cell that are above the individual contributions of the corrosion inhibitor and the surfactant system.
US10811687B2
The present invention relates to a secondary battery electrode including: a collector positioned between an external wire and an electrode active material to transfer electrons; and an electrode mixture layer coated on the collector, wherein the electrode mixture layer includes a cross-linked polymer, an electrode active material, and a binder, and the cross-linked polymer is formed by a cross-linked bond between a first polymerization unit and a second polymerization unit to have an interpenetrating polymer network (IPN), and a manufacturing method thereof.
US10811681B2
A negative electrode active material contains particles of negative electrode active material, wherein the particles of negative electrode active material contain a silicon compound represented by SiOx (0.5≤x≤1.6), and when the particles of negative electrode active material are measured by an atom probe method, and an Si 75% equivalent concentration surface obtained by the atom probe method is defined to be a boundary surface of a silicon grain, an average diameter of the silicon grains at a center portion of the particle in the particles of negative electrode active material is in the range of 0.25 nm to 5 nm. According to this constitution, when it is used as the negative electrode active material of a secondary battery, a negative electrode active material is capable of increasing battery capacity and improving cycle characteristics.
US10811680B2
A battery comprises electrodes formed from the same metal oxide and an electrolyte solution comprising a source of cations which can be intercalated into the metal oxide. The battery can store electrical charge by connecting one of the electrodes to an external power source to reduce at least some of the metal atoms in the metal oxide forming the electrode from a higher to a lower oxidation state through the uptake of intercalating cations from the electrolyte and thereby create a potential difference between the electrodes, which electrical charge can be discharged by electrically connecting the electrodes. The electrodes are preferably formed from a multi-valent transition metal oxide, such as a tungsten, vanadium, cobalt or molybdenum oxide, more preferably tungsten trioxide. The intercalating cations are preferably protons and the electrolyte an acid.
US10811676B2
Provided is a precursor of transition metal oxide represented by chemical formula 1 below. NiaMnbCo1-(a+b+c+d)ZrcMd[OH(1-x)2-y]A(y/n) [Chemical formula 1]
US10811673B2
A battery includes a positive electrode containing a positive electrode active material, a negative electrode, and a solid electrolyte. The positive electrode active material contains a compound which has a crystal structure belonging to the space group FM3-M and which is represented by the following formula: LixMeyOαFβ (1) where Me is one or more selected from the group consisting of Mn, Co, Ni, Fe, Al, B, Ce, Si, Zr, Nb, Pr, Ti, W, Ge, Mo, Sn, Bi, Cu, Mg, Ca, Ba, Sr, Y, Zn, Ga, Er, La, Sm, Yb, V and Cr and the conditions 1.7≤x≤2.2, 0.8≤y≤1.3, 1≤α≤2.5, and 0.5≤β≤2 are satisfied.
US10811669B2
Provided is a battery capable of surely interrupting current at the time of temperature rise so that excessive heat generation does not occur at the occurrence of an abnormality. The battery 1 includes a battery element 10 including a positive electrode and a negative electrode, an inner package 13 which forms a first chamber 13a for enclosing the battery element 10, an outer package 14 which encloses the inner package 13 such that the outer package 14 forms a second chamber 14a which surrounds the first chamber 13a, and a pair of terminals 11, 12 electrically connected to the positive electrode and the negative electrode and led out to the outside of the outer package 14. One terminal 11 of the pair of terminals 11, 12 has a first terminal 11a and a second terminal 11b arranged so as to be electrically connected in the second chamber 13a. A gas generating material 14 which generates gas at a predetermined temperature or higher or a predetermined voltage or higher is enclosed in the first chamber 13a or the second chamber 14a.
US10811668B2
A secondary battery includes an electrode body including a positive electrode plate and a negative electrode plate; a battery case containing the electrode body; a terminal attached to the battery case; a conductive member having an opening adjacent to the electrode body; a deformation plate that seals the opening, and a current collector. The positive electrode plate and a positive electrode terminal are electrically connected to each other via a first positive electrode current collector, the deformation plate, and the conductive member. The first positive electrode current collector has a through-hole. The deformation plate is disposed to face the through-hole. A portion of the first positive electrode current collector distant from the through-hole is welded to the deformation plate to form a weld.
US10811663B2
Methods and systems for welding a terminal of a battery cell to corresponding terminal tab or busbar are described using a magnet that causes the terminal and tab/busbar to be placed in physical contact. The terminal of a battery cell is aligned in contact with the tab/busbar by the force of a magnetic field. A welder, e.g., a laser welder, can then generate a laser weld beam to weld the terminal of the battery cell to the tab/busbar. Next, the laser weld beam is narrowed, reducing the first diameter to a smaller second diameter. Without touching the tab/busbar or terminal of the battery (which could affect the welding operation), the magnetic field can cause a force that brings the tab and terminal in contact during welding.
US10811642B2
Provided is a manufacturing method of a display device in which, after a layered body including a resin layer, a TFT layer, and a light emitting element layer is formed on a substrate configured to form a plurality of display devices, the resin layer is irradiated with laser from a back face of the substrate and the substrate is peeled from the layered body using a laser peeling device. The manufacturing method of a display device includes acquiring optical information of the substrate that is peeled off, detecting each acquisition result of the plurality of display devices from each assigned position of the plurality of display devices relative to the substrate, and performing predetermined processing on the display device in a case that the acquisition result of the display device exceeds a threshold value.
US10811640B2
A method of manufacturing a display apparatus includes separating a mother substrate that includes a plurality of connected unit display apparatuses into a plurality of separated unit display apparatuses. Each separated unit display apparatus includes a display panel and at least one supporting unit attached below the display panel. The display panel includes a display substrate that has a pad area on which are disposed a plurality of pads and a thin film encapsulation layer on the display substrate. The method further includes consecutively cutting the display panel and the at least one supporting unit of each separated unit display apparatus along cutting lines in the pad area, where a first cut surface of the pad area of the display substrate and a second cut surface of the at least one supporting unit are respectively cut at different angles.
US10811630B2
A display device includes a first display substrate including a display area and a non-display area, a second display substrate facing the first display substrate and including an end portion corresponding to the non-display area and extending along a first direction; a connection circuit board connected to the first display substrate at the non-display area thereof and disposed adjacent to the end portion of the second display substrate; and a first spacer and a second spacer each on the end portion of the second display substrate, and spaced apart from each other along the first direction to define a space therebetween. Along a second direction which crosses the first direction, a central portion of the connection circuit board connected to the first display substrate faces the space between the first spacer and the second spacer on the second display substrate.
US10811629B2
A display panel and a method of manufacturing a display panel are provided. A method of manufacturing a display panel includes: preparing a unit panel including a panel area having a display unit and a margin area arranged outside the panel area and including one or more dummy seals; cutting a line between the panel area and the margin area by irradiating a laser along a boundary of the panel area; and striking a vicinity of the one or more dummy seals such that the margin area at an outer periphery of the cut line is separated from the panel area.
US10811624B2
An electroluminescent display includes a lower substrate having a display area with subpixel emission areas defined in the display area; an electrode layer on the lower substrate; a planarization layer formed on the lower substrate such that holes are formed in the planarization layer with each hole being adjacent to a respective one of the subpixel emission areas; lower electrode layer in the respective subpixel emission area; a sacrificial layer surrounding the subpixel emission area and absent at an area having the lower electrode layer; an organic emission layer on the lower electrode layer; and an upper electrode layer on the organic emission layer.
US10811620B2
An OLED including an organic layer that contains metal complex compounds that are useful as a phosphorescent emitter is disclosed. The metal complex compounds include ligands that incorporate fluorinated side chains and has at least one substituent R selected from the group consisting of partially fluorinated alkyl, partially fluorinated cycloalkyl, and combinations thereof, wherein R is directly bonded to an aromatic ring. In the compound, C having an F attached thereto is separated by at least one carbon atom from the aromatic ring.
US10811614B2
An organic light-emitting device is provided That includes: a first electrode; a second electrode facing the first electrode; m number of emission units disposed between the first electrode and the second electrode, the emission units each including at least one emission layer. m−1 charge generation layers are disposed between two adjacent emission units and each includes an n-type charge generation layer and a p-type charge generation layer. Maximum emission wavelengths of light emitted by two emission units may be different. At least one of the emission units, at least one of the charge generation layers, or any combination thereof may each include a first compound, which may be represented by Formula 1:
US10811612B2
An organic electroluminescence device including a cathode, an anode, and an emitting layer disposed between the cathode and the anode, wherein the emitting layer contains a compound represented by the following formula (1) and one or more compounds selected from the group consisting of compounds represented by formulas (11), (21), (31), (41), (51), (61), (71) and (81). In the formula (1), at least one of R1 to R8 is a deuterium atom.
US10811609B2
A manufacturing method of a display device includes a layering process including steps of forming a PI layer on a carrier glass substrate, forming a base coat layer to cover the PI layer, and forming a TFT layer and a light-emitting element layer on the base coat layer, an exposing process including a step of exposing an end surface of the PI layer, and a peeling process including a step of peeling the carrier glass substrate from the PI layer by irradiating the lower face of the PI layer with a laser light beam.
US10811607B2
A phase change memory and a method of fabricating the same are provided. The phase change memory includes a lower electrode, an annular heater, an annular phase change layer, and an upper electrode. The annular heater is disposed over the lower electrode. The annular phase change layer is disposed over the annular heater, and the annular phase change layer and the annular heater are misaligned in a normal direction of the lower electrode. The upper electrode is disposed over the annular phase change layer. The present disclosure simplifies the manufacturing process of the phase change memory, reduces the manufacturing cost, and improves the manufacturing yield. In addition, a contact surface between the heater and the phase change layer of the phase change memory of the present disclosure is very small, so that the phase change memory has an extremely low reset current.
US10811605B2
A radio frequency (RF) switch includes a phase-change material (PCM) and a heating element underlying an active segment of the PCM, the PCM and heating element being situated over a substrate. A contact dielectric is over the PCM. PCM contacts have upper portions and uniform plate slot lower portions. The uniform plate slot lower portions have a total plate resistance RPLATE, and a total plate slot interface resistance RPLATE-INT. The upper portions have a total capacitance CUPPER to the uniform plate slot lower portions, and the PCM has a total capacitance CPCM to the substrate. The uniform plate slot lower portions significantly reduce a product of (RPLATE+RPLATE-INT) and (CUPPER+CPCM). As an alternative to the uniform plate slot lower portions, PCM contacts have segmented lower portions. The segmented lower portions significantly reduce CUPPER.
US10811603B2
A resistive random access memory (RRAM) is provided. The RRAM includes a lower electrode, an upper electrode, a first variable resistance layer and a second variable resistance layer. The lower electrode is disposed on a substrate, and is a single electrode or a pair of electrodes electrically connected to each other. The upper electrode is disposed on the lower electrode, and overlaps the lower electrode. The first variable resistance layer and the second variable resistance layer are disposed on the substrate. At least a portion of the first variable resistance layer is disposed between the lower electrode and the upper electrode, and at least a portion of the second variable resistance layer is disposed between the lower electrode and the upper electrode and connected to the first variable resistance layer.
US10811596B2
A MRAM cell includes a magnetic tunnel junction containing a reference layer having a fixed magnetization direction, a free layer, and a nonmagnetic tunnel barrier layer located between the reference layer and the free layer, a spin torque oscillator stack, and a first nonmagnetic spacer layer located between the free layer and the a spin torque oscillator stack.
US10811595B2
Techniques are disclosed for forming a logic device including integrated spin-transfer torque magnetoresistive random-access memory (STT-MRAM). In accordance with some embodiments, one or more magnetic tunnel junction (MTJ) devices may be formed within a given back-end-of-line (BEOL) interconnect layer of a host logic device. A given MTJ device may be formed, in accordance with some embodiments, over an electrically conductive layer configured to serve as a pedestal layer for the MTJ's constituent magnetic and insulator layers. In accordance with some embodiments, one or more conformal spacer layers may be formed over sidewalls of a given MTJ device and attendant pedestal layer, providing protection from oxidation and corrosion. A given MTJ device may be electrically coupled with an underlying interconnect or other electrically conductive feature, for example, by another intervening electrically conductive layer configured to serve as a thin via, in accordance with some embodiments.
US10811589B2
The substrate and buffer layers, of either one-sided or two-sided superconducting tape, are separated from the YCBO layer(s) of the tape by a combined action of radiative or inductive heat and mechanical force via a reel-to-reel manufacturing process. The exfoliation process may also utilize an air blade(s) to facilitate the separation of the layers of the tape.
US10811587B2
Josephson transmission lines (JTLs) for superconducting devices and related methods are provided. In one example, a device comprising a JTL for propagating quantum pulses in a first direction in response to an application of a clock signal having a plurality of phases is provided. The JTL may include a first inductive element coupled between a first terminal and a second terminal, a first Josephson junction (JJ) coupled between the second terminal and a ground terminal, a second inductive element coupled between the second terminal and a third terminal, and a second JJ coupled between the third terminal and the ground terminal. The second inductive element is configured to form an inductive loop, and the inductive loop may be configured to operate in a mode such that a quantum pulse cannot travel in a second direction opposite from the first direction regardless of a phase of the clock signal.
US10811584B2
A semiconductor crystal containing a clathrate compound represented by the following formula (I), the semiconductor crystal having one end portion and the other end portion, wherein the one and the other end portions differ in concentration of at least one element in the formula (I): AxDyE46-y (I) wherein A represents at least one element selected from the group consisting of Ba, Na, Sr, and K, D represents at least one element selected from the group consisting of B, Ga, and In, E represents at least one element selected from the group consisting of Si, Ge, and Sn, x is 7 or more and 8 or less, and y is 14 or more and 20 or less.
US10811573B2
Solid-state lighting devices including light-emitting diodes (LEDs) and more particularly packaged LEDs with light-altering materials are disclosed. A light-altering material is provided in particular configurations within an LED package to redirect light from an LED chip within the LED package and contribute to a desired emission pattern of the LED package. The light-altering material may also block light from the LED chip from escaping in a non-desirable direction, such as large or wide angle emissions. The light-altering material may be arranged on a lumiphoric material adjacent to the LED chip in various configurations. The LED package may include an encapsulant on the light-altering material and the lumiphoric material.
US10811567B2
Embodiments is disclosed a light emitting module and a display device. The light emitting module includes, a substrate, a first lead electrode and a second lead electrode disposed on the substrate and electrically separated from each other; and at least one light emitting device disposed on the substrate, wherein the light emitting device includes a first electrode facing the first lead electrode and including a ferromagnetism material and a second electrode facing the second lead electrode and including a diamagnetism material, wherein the second lead electrode includes a diamagnetism material, and wherein the first lead electrode comprises a ferromagnetism material.
US10811566B2
A light emitting module according to an embodiment comprises: a first support member having a first opening part and a second opening part; a second support member disposed in the first opening part in the first support member; a third support member disposed in the second opening part in the first support member; a first lead electrode disposed above the second support member; a second lead electrode disposed on the first support member and/or above the second support member; a light emitting chip disposed above the second support member and electrically connected to the first and second lead electrodes; a control component disposed above the third support member; and a conductive layer disposed underneath the first, second and third support members, wherein the first support member comprises a resin material, the second support material comprises a ceramic material and the third support member comprises a metal material.
US10811565B2
This invention provides a nitride semiconductor light emitting device in which current concentration is suppressed without excessively increasing resistance at a low cost without increasing a manufacturing process.The planar shape of a mesa portion configuring a nitride semiconductor light emitting device is a shape containing a convex-shaped tip portion 352b formed by a curved line or a plurality of straight lines and a base portion 352a continuous to the convex-shaped tip portion 352b, in which an obtuse angle is formed by adjacent two straight lines in the convex-shaped tip portion formed by the plurality of straight lines. The first electrode layer 4 has visible outlines 411 and 412 along a visible outline 302 of the mesa portion through a gap 9 in planar view. The relationship between a gap W1 in the convex-shaped tip portion 352b and a gap W2 in the base portion 352a is W1> W2.
US10811562B2
A light emitting diode including: a columnar laminated structure 20 in which a first compound semiconductor layer 21, a light emitting layer 23, and a first portion 22A of a second compound semiconductor layer are laminated; a first electrode 31 electrically connected to the first compound semiconductor layer 21; and a second electrode 32. A second portion 22B of the second compound semiconductor layer is formed on the first portion 22A of the second compound semiconductor layer, apart from an edge portion 22a3 of the first portion 22A of the second compound semiconductor layer, the second electrode 32 is formed at least on a top surface of the second portion 22B of the second compound semiconductor layer, and light is outputted at least from the top surface 22b1 and a side surface 22b2 of the second portion 22B of the second compound semiconductor layer.
US10811553B2
Device structures, apparatuses, and methods are disclosed for photovoltaic cells that may be a single-junction or multijunction solar cells, with at least a first layer comprising a group-IV semiconductor in which part of the cell comprises a second layer comprising a III-V semiconductor or group-IV semiconductor having a different composition than the group-IV semiconductor of the first layer, such that a heterostructure is formed between the first and second layers.
US10811550B2
A solar panel system including solar panel units reducing horizontal surface area is provided. The solar panel system may be a cylindrical configuration comprising solar panel units that are configured radially about an internal star-shaped structure.
US10811545B2
A sensing module including a sensing array, a first shielding layer, a second shielding layer, and a reflective layer is provided. The sensing array includes a plurality of light passing regions and a light receiving surface facing away from an object, and the sensing array is located between the first shielding layer having a plurality of first openings and the second shielding layer having a plurality of second openings. The second shielding layer is located between the sensing array and the reflective layer. The light beams reflected by the object sequentially pass through the first openings, the light passing regions, the second openings, and are then transmitted to the reflective layer. The light beams are reflected by the reflective layer and then pass through the second openings again to be transmitted to the light receiving surface of the sensing array. An image capturing apparatus is also provided.
US10811544B2
An imaging device includes a plurality of pixels each including a plurality of avalanche photodiodes, a setting unit configured to set the plurality of avalanche photodiodes to an active state or an inactive state separately, and a counter circuit that counts and outputs number of photons determined by the avalanche photodiode(s) set to the active state out of the plurality of avalanche photodiodes, wherein the imaging device is configured to change the number of avalanche photodiodes set to the active state out of the plurality of avalanche photodiodes in accordance with brightness of an object.
US10811540B2
To provide a highly reliable semiconductor device that is suitable for miniaturization and higher density. A semiconductor device includes a first electrode including a protruding portion, a first insulator over the protruding portion, a second insulator covering the first electrode and the first insulator, and a second electrode over the second insulator. The second electrode includes a first region which overlaps with the first electrode with the first insulator and the second insulator provided therebetween and a second region which overlaps with the first electrode with the second insulator provided therebetween. The peripheral portion of the second electrode is provided in the first region.
US10811539B2
Provided herein are devices, systems, and methods of employing the same for the performance of bioinformatics analysis. The apparatuses and methods of the disclosure are directed in part to large scale graphene FET sensors, arrays, and integrated circuits employing the same for analyte measurements. The present GFET sensors, arrays, and integrated circuits may be fabricated using conventional CMOS processing techniques based on improved GFET pixel and array designs that increase measurement sensitivity and accuracy, and at the same time facilitate significantly small pixel sizes and dense GFET sensor based arrays. Improved fabrication techniques employing graphene as a reaction layer provide for rapid data acquisition from small sensors to large and dense arrays of sensors. Such arrays may be employed to detect a presence and/or concentration changes of various analyte types in a wide variety of chemical and/or biological processes, including DNA hybridization and/or sequencing reactions. Accordingly, GFET arrays facilitate DNA sequencing techniques based on monitoring changes in hydrogen ion concentration (pH), changes in other analyte concentration, and/or binding events associated with chemical processes relating to DNA synthesis within a gated reaction chamber of the GFET based sensor.
US10811528B2
High breakdown voltage devices are provided. In one aspect, a method of forming a device having a VTFET and a LDVTFET includes: forming a LDD in an LDVTFET region; patterning fin(s) in a VTFET region to a depth D1; patterning fin(s) in the LDVTFET region, through the LDD, to a depth D2>D1; forming bottom source/drains at a base of the VTFET/LDVTFET fins; burying the VTFET/LDVTFET fins in a gap fill dielectric; recessing the gap fill dielectric to full expose the VTFET fin(s) and partially expose the LDVTFET fin(s); forming bottom spacers directly on the bottom source/drains in the VTFET region and directly on the gap fill dielectric in the LDVTFET region; forming gates alongside the VTFET/LDVTFET fins; forming top spacers above the gates; and forming top source/drains above the top spacers. A one-step fin etch and devices having VTFET and long channel VTFETs are also provided.
US10811524B2
A semiconductor circuit of an embodiment includes semiconductor device and a control circuit. The semiconductor device includes a semiconductor layer that has a first region of a first-conductivity type, a second region of a second-conductivity type, a third region of the first-conductivity type, fourth region of the second-conductivity type, first and second trench, first and second gate electrode, a first gate insulating film in contact with the fourth region, and a second gate insulating film spaced away from the fourth region. The semiconductor device includes a first gate electrode pad connected to the first gate electrode, and a second gate electrode pad connected to the second gate electrode. Prior to changing a first gate voltage from a turn-ON voltage to a turn-OFF voltage, a second gate voltage changed from a first voltage to a second voltage. The second voltage is a negative voltage when the first-conductivity type is p-type.
US10811523B2
A semiconductor device having a first surface formed at a first height and a second surface formed at a second height on a semiconductor substrate includes: a base region formed in the semiconductor substrate; a trench formed from the first surface and the second surface into the semiconductor substrate; a gate insulating film covering an inner side of the trench; a gate electrode embedded to a third height; an insulating film formed on the gate electrode; a first region which has the first surface and in which a base contact region is formed; and a second region which has the second surface and in which a source region is formed, the first region and the second region being alternately arranged in the trench extension direction to prevent a reduction in channel formation density.
US10811520B2
A method for manufacturing a semiconductor device, includes: forming a well region (201) in a semiconductor substrate (200) and forming a channel region (202) in the well region (201), and forming a gate oxide layer (210) and a polysilicon layer (220) on the well region (201); etching a portion of the gate oxide layer (210) and the polysilicon layer (220), and exposing a first opening (221) used for forming a source region and a second opening (223) used for forming a drain region; forming a first dielectric layer (230) and a second dielectric layer (240) on the polysilicon layer (220) and in the first opening (221) and the second opening (223) successively, and forming a source region side wall at a side surface of the first opening (221) and forming a drain region side wall at a side surface of the second opening (223); forming a dielectric oxide layer (250) on the polysilicon layer (220), etching the dielectric oxide layer and retaining the dielectric oxide layer (250) located on the drain region side wall; removing the second dielectric layer (240) in the source region side wall and retaining the first dielectric layer (230) therein.
US10811518B2
In a method of manufacturing a semiconductor device, a fin structure, in which first semiconductor layers and second semiconductor layers are alternately stacked, is formed. A sacrificial gate structure is formed over the fin structure. A source/drain region of the fin structure, which is not covered by the sacrificial gate structure, is etched, thereby forming a source/drain space. The first semiconductor layers are laterally etched through the source/drain space. An inner spacer made of a dielectric material is formed on an end of each of the etched first semiconductor layers. A source/drain epitaxial layer is formed in the source/drain space to cover the inner spacer. A lateral end of each of the first semiconductor layers has a V-shape cross section after the first semiconductor layers are laterally etched.
US10811517B2
A method includes forming a fin extending above an isolation region. A sacrificial gate stack having a first sidewall and a second sidewall opposite the first sidewall is formed over the fin. A first spacer is formed on the first sidewall of the sacrificial gate stack. A second spacer is formed on the second sidewall of the sacrificial gate stack. A patterned mask having an opening therein is formed over the sacrificial gate stack, the first spacer and the second spacer. The patterned mask extends along a top surface and a sidewall of the first spacer. The second spacer is exposed through the opening in the patterned mask. The fin is patterned using the patterned mask, the sacrificial gate stack, the first spacer and the second spacer as a combined mask to form a recess in the fin. A source/drain region is epitaxially grown in the recess.
US10811514B2
An electronic device can include an enhancement-mode high electron mobility transistor (HEMT) that includes a source electrode; a drain electrode; and a gate. In an embodiment, the gate can correspond to spaced-apart gate electrodes and a space disposed between the spaced-apart gate electrodes, wherein the first space has a width configured such that, a continuous depletion region forms across all of the width of the first space. In another embodiment, the gate can be a gate electrode having a nonuniform thickness along a line in a gate width direction. In another aspect, a method of using the electronic device can include, during a transient period when the HEMT is in an off-state, flowing current from the drain electrode to the source electrode when Vds>−Vth+Vgs.
US10811513B2
A vertical tunneling field effect transistor is provided and includes: a semiconductor substrate; a first doped layer on the semiconductor substrate; vertical nanowires on the first doped layer; a second doped layer on a top of each vertical nanowire; an interlayer dielectric layer on the first doped layer, including a cavity between the adjacent vertical nanowires through the interlayer dielectric layer and exposing sidewalls of the adjacent vertical nanowires; a high-K gate dielectric layer in sidewalls and a bottom of each cavity; and a gate electrode layer on the high-K gate dielectric layer to fill each cavity.
US10811512B2
A method of fabricating a semiconductor device includes forming a first semiconductor region at a front surface of a substrate, the first semiconductor region including an active element that regulates current flowing in a thickness direction of the substrate; grinding a rear surface of the substrate; after the grinding, performing a first etching that etches the rear surface of the substrate with a chemical solution including phosphorus; after the first etching, performing a second etching that etches the rear surface with an etching method with a lower etching rate than the first etching; and after the second etching, forming a second semiconductor region through which the current is to flow, by implanting impurities from the rear surface of the substrate.
US10811505B2
Disclosed are semiconductor devices and methods of manufacturing the same. The semiconductor device comprises a gate electrode on a substrate, an upper capping pattern on the gate electrode, and a lower capping pattern between the gate electrode and the upper capping pattern. The lower capping pattern comprises a first portion between the gate electrode and the upper capping pattern, and a plurality of second portions extending from the first portion onto corresponding side surfaces of the upper capping pattern. The upper capping pattern covers a topmost surface of each of the second portions.
US10811497B2
A lateral transistor tile is formed with first and second collector regions that longitudinally span first and second sides of the transistor tile; and a base region and an emitter region that are between the first and second collector regions and are both centered on a longitudinal midline of the transistor tile. A base-collector current, a collector-emitter current, and a base-emitter current flow horizontally; and the direction of the base-emitter current is perpendicular to the direction of the base-collector current and the collector-emitter current. Lateral BJT transistors having a variety of layouts are formed from a plurality of the tiles and share common components thereof.
US10811496B2
Techniques are disclosed for forming column IV transistor devices having source/drain regions with high concentrations of germanium, and exhibiting reduced parasitic resistance relative to conventional devices. In some example embodiments, the source/drain regions each includes a thin p-type silicon or germanium or SiGe deposition with the remainder of the source/drain material deposition being p-type germanium or a germanium alloy (e.g., germanium:tin or other suitable strain inducer, and having a germanium content of at least 80 atomic % and 20 atomic % or less other components). In some cases, evidence of strain relaxation may be observed in the germanium rich cap layer, including misfit dislocations and/or threading dislocations and/or twins. Numerous transistor configurations can be used, including both planar and non-planar transistor structures (e.g., FinFETs and nanowire transistors), as well as strained and unstrained channel structures.
US10811485B2
An organic light emitting display panel can include a substrate; pixels disposed on the substrate; a driving transistor including: a driving active layer, a driving gate electrode overlapping with the driving active layer, a driving first conductor extended from one end of the driving active layer, a driving second conductor extended from the other end of the driving active layer, and a driving first gate insulating film overlapping with the driving active layer; a switching transistor including: a switching active layer, a switching gate electrode overlapping with the switching active layer, a switching first conductor extended from one end of the switching active layer, a switching second conductor extended from the other end of the switching active layer, and a switching first gate insulating film overlapping with the switching active layer; an organic light emitting diode; and a second gate insulating film disposed between the driving and switching gate electrodes of the driving and switching transistors, and the driving first conductor, the driving second conductor, the driving first gate insulating film, the switching first conductor, the switching second conductor and the switching first gate insulating film.
US10811483B2
A display device includes: a substrate having a first area, a second area, and a bending portion between the first area and the second area; a first conductive line extending to the first area, the bending portion, and the second area along a first direction on a plane; and a second conductive line including a first contact portion and a first connection portion, the first contact portion being connected to the first conductive line at the first area and the first connection portion overlapping the first conductive line on a plane and extending along the first direction to the first area, the bending portion, and the second area, wherein the second conductive line further includes a corrosion retardation portion extending from the first contact portion.
US10811480B2
An organic light emitting display (OLED) device includes a substrate, a semiconductor element on the substrate, a planarization layer on the semiconductor, and a light emitting structure on the planarization layer. The planarization layer includes a contact hole exposing a portion of the semiconductor and a plurality of grooves surrounding the contact hole. The light emitting structure is electrically connected to the semiconductor element via the contact hole.
US10811463B2
A light emitting display device includes a substrate that includes a first pixel, a second pixel, a third pixel, and an infrared ray emission portion, the first pixel, the second pixel, and the third pixel representing different colors, a first electrode on the substrate, a second electrode that overlaps the first electrode, an emission layer between the first electrode and the second electrode, and an auxiliary layer between the first electrode and the emission layer. The emission layer may include a first emission layer in the first pixel and an infrared ray emission layer in the infrared ray emission portion, the auxiliary layer may include a first auxiliary layer in the first pixel, and the infrared ray emission layer and the first auxiliary layer may include the same material.
US10811458B2
A method of processing a wafer having devices disposed in respective regions demarcated on a front face thereof by a grid of a plurality of projected dicing lines on the front face, the method includes a mask layer forming step of covering the front face of the wafer except for the regions where grooves are to be formed along the projected dicing lines with a resin material mixed with an ultraviolet ray absorber, and forming a mask layer on the front face of the wafer, a plasma etching step of performing plasma etching on the wafer from the mask layer side using a fluorine-based stable gas as an etching gas, and forming grooves in the wafer along the projected dicing lines, and a mask layer removing step of removing the mask layer after the plasma etching step is performed.
US10811457B2
An array substrate for a digital X-ray detector can include a base substrate; a thin film transistor disposed on the base substrate; a PIN diode including a lower electrode electrically connected to the thin film transistor, a first PIN layer disposed on the lower electrode, and an upper electrode disposed on the first PIN layer; a second PIN layer spaced apart from the PIN diode, the second PIN layer being disposed on the thin film transistor; and a bias electrode electrically connected to the upper electrode.
US10811448B2
A solid-state imaging device includes a plurality of pixels, a reference signal supply unit configured to output a reference signal, and a comparison unit configured to output a signal depending on the reference signal and a signal from the pixel. The comparison unit includes a comparator circuit including an input terminal and an output terminal, a first switch configured to connect the input terminal and the output terminal of the comparator circuit, a clamp capacitor including a first terminal connected to the input terminal of the comparator circuit, a second switch connected to a second terminal of the clamp capacitor, and configured to select one of the signal from the pixel and the reference signal and to input the selected signal to the second terminal, and a clipping circuit arranged in an electrical path through which the reference signal is input to the comparator circuit.
US10811446B2
Disclosed are an array substrate and a manufacturing method therefor, a display panel and a display device, which are used for enabling a viewer to see a uniform reflective effect at various viewing angles, improving the display effect. The array substrate manufacturing method comprises: sequentially forming, on a passivation layer, a reflective layer and a transparent conductive layer, the reflective layer being electrically connected, by means of a via hole penetrating through the passivation layer, to a source electrode or a drain electrode of the thin film transistor, and the transparent conductive layer comprising several metal ions; performing reduction process on the transparent conductive layer, so that the metal ions are reduced, and a metal particle layer is formed; and performing patterning process on the transparent conductive layer and the reflective layer on which the steps above are completed, so as to form a pixel electrode.
US10811436B2
The present disclosure provides an array substrate and a method for manufacturing the same, a display apparatus. The array substrate includes a base substrate and a plurality of pixel units arranged on the base substrate, each of the pixel units includes a thin film transistor and an electroluminescent device, the thin film transistor and the electroluminescent device are successively arranged on the base substrate in a direction away from the base substrate, the electroluminescent device includes a first electrode, a light emitting layer and a second electrode which are successively arranged in the direction away from the base substrate, the first electrode includes a reflective material, a convex structure is provided between first electrodes of any two adjacent electroluminescent devices, and the first electrodes of the electroluminescent devices extend to side walls of the convex structure, respectively.
US10811433B2
One illustrative device disclosed herein is formed on an SOI substrate. The transistor device includes a first channel region formed in a semiconductor bulk substrate of the SOI substrate and a first gate insulation layer formed above the first channel region. In one embodiment, the first gate insulation layer includes a part of the buried insulation layer of the SOI substrate and an oxidized part of the semiconductor layer of the SOI substrate.
US10811430B2
Three-dimensional semiconductor memory devices are provided. The devices may include a semiconductor layer and electrode structures on the semiconductor layer. The electrode structures may include a first electrode structure including a first electrode portion and a first pad portion and a second electrode structure including a second electrode portion and a second pad portion. Each of the first and second electrode portions has a first width, each of the first and second pad portions has a second width, and the second width may be less than the first width. The first and second electrode portions may be spaced apart from each other by a first distance, and the first and second pad portions may be spaced apart from each other by a second distance that may be greater than the first distance.
US10811427B1
A semiconductor structure includes a substrate, conductive layers, dielectric layers, an isolation structure, a first memory structure, and a second memory structure. The conductive layers and the dielectric layers are interlaced and stacked on the substrate. The isolation structure is disposed on the substrate and through the conductive layers and the dielectric layers. Each of the first and second memory structures has a radius of curvature. The first and second memory structures penetrate through the conductive layers and the dielectric layers and are disposed on opposite sidewalls of the isolation structure. Each of the first and second memory structures includes protecting structures and a memory structure layer including a memory storage layer. The protecting structures are disposed at two ends of the memory storage layer, and an etching selectivity to the protecting structures is different from an etching selectivity to the memory storage layer.
US10811425B2
An NOR flash memory comprising a memory cell of a 3D structure and a manufacturing method thereof are provided. The flash memory 100 includes a plurality of columnar portions 120, a plurality of charge accumulating portions 130 and a plurality of control gates 140. The columnar portions 120 extend from a surface of a silicon substrate 110 in a vertical direction and include an active region. The charge accumulating portions 130 are formed by way of surrounding a side portion of each columnar portion 120. The control gates 140 are formed by way of surrounding a side portion of each charge accumulating portion 130. One end portion of the columnar portion 120 is electrically connected to a bit line 150 via a contact hole, and another end portion of the columnar portion 120 is electrically connected to a conductive region formed on a surface of the silicon substrate 110.
US10811423B2
The present disclosure provides a method of fabricating a semiconductor structure, and the method includes following steps. A gate structure is formed on a substrate, and a liner layer is formed to cover the gate structure and the substrate. A spacer layer is formed on the liner layer, and an etching gas is continuously provided to remove a portion of the spacer layer while maintaining the substrate at a second pressure, which the etching gas has a first pressure. The second pressure is greater than the first pressure.
US10811413B2
Multi-voltage threshold vertical transport transistors and methods of fabrication generally include forming the transistors with vertically oriented silicon fin channels for both the n-type doped field effect transistors (nFET) and the p-type doped field effect transistors (pFET). A silicon oxynitride interfacial layer is provided on sidewalls of the fins in the nFET and a silicon dioxide interfacial with aluminum is provided on sidewalls of the fins in the pFET to provide an aluminum induced dipole. A high k dielectric overlays the interfacial layers and a common work function metal overlays the high k dielectric layer to define a gate structure.
US10811412B2
A FinFET including a gate stack, a semiconductor fin embedded in the gate stack, a source and a drain disposed is provided. The semiconductor fin extends along a widthwise direction of the gate stack and has a first concave and a second concave exposed at sidewalls of the gate stack respectively. The source and drain are disposed at two opposite sides of the gate stack. The source includes a first portion in contact with and embedded in the first concave. The drain includes a second portion in contact with and embedded in the second concave. The first portion and the second portion are covered by the gate stack.
US10811409B2
Methods of manufacturing FinFETs including providing a precursor FinFET structure having a substrate with fins thereon, S/D junctions on fin tops, an STI layer on the substrate and between fins, a conformal first dielectric layer on the STI layer and S/D junctions, and a second dielectric layer on the first dielectric layer; forming a conformal third dielectric layer on the second dielectric layer and surfaces of the first dielectric layer located above the second dielectric layer; forming a fourth dielectric layer on the third dielectric layer such that third dielectric layer located between adjacent fins is exposed and such that third dielectric layer located above the adjacent fins is exposed; removing the exposed third dielectric layer and the first dielectric layer located thereunder, thereby exposing the S/D junctions; and forming a metal contact on the exposed S/D junctions and the exposed portion of the third dielectric layer between adjacent fins.
US10811408B2
A semiconductor device includes a substrate including an active region defined by a device isolation layer. A word line structure is in a trench formed in an upper portion of the substrate. The word line structure includes a gate insulation pattern covering an inner surface of the trench. A gate electrode pattern is on the gate insulation pattern. A first work function pattern is between the gate insulation pattern and the gate electrode pattern. A second work function pattern is on the first work function pattern and extends along a side surface of the gate electrode pattern. The first work function pattern has a top surface at a level below that of a bottom surface of the gate electrode pattern. The first work function pattern has a work function greater than that of the second work function pattern.
US10811406B2
A semiconductor device has a first semiconductor region of a first conductivity type, a second semiconductor region of a second conductivity type, a first conductive layer disposed on a main surface of the first semiconductor region, and a second conductive layer disposed on a main surface of the second semiconductor region. The first conductive layer has a first diffusion layer of the first conductivity type, a plurality of second diffusion layers of the first conductivity type, the second diffusion layers having higher impurity concentration than the first diffusion layer, and a plurality of third diffusion layers of the first conductivity type that are included in the first semiconductor region, or are arranged apart from one another to contact the first and second semiconductor regions, the third diffusion layers being arranged apart from the plurality of second diffusion layers and having higher impurity concentration than the first diffusion layer.
US10811404B2
Provided are a package structure and a method of manufacturing the same. The package structure includes a die, a passive device, and a package. The die has a front side and a backside opposite to each other. The package is disposed on the backside of the die. The passive device is disposed between the backside of the die and the package.
US10811401B1
Embodiments described herein relate to maintaining alignment between materials having different coefficients of thermal expansion during a bonding process of a light emitting diode (LED) device. The LED device includes a LED array and a backplane. The LED array and the blackplane each include a plurality of electrodes. During a bonding process where the electrodes of the LED array and electrodes of a backplane are bonded together, an alignment material having a coefficient of thermal expansion different than a coefficient of thermal expansion of the material of the LED array is deposited between LEDs of the LED array.
US10811398B2
A semiconductor structure is disclosed. The semiconductor structure includes: a semiconductor substrate including a front surface and a back surface; a backside metallization layer formed over the semiconductor substrate, the backside metallization layer being closer to the back surface than to the front surface of the semiconductor substrate, at least a portion of the backside metallization layer forming an inductor structure; and an electrically non-conductive material formed in the semiconductor substrate, the electrically non-conductive material at least partially overlapping the inductor structure from a top view, and the electrically non-conductive material including a top surface, a bottom surface, and sidewalls, the top surface being adjacent to the back surface of the semiconductor substrate. A method for manufacturing a semiconductor structure is also disclosed.
US10811397B2
Some embodiments of the disclosure provide for a lighting system including a substrate. The lighting system includes several blue light emitting diodes (LEDs) supported by the substrate. The lighting system includes at least one red LED supported by the substrate. The lighting system includes a light conversion material covering the blue LEDs and the at least one red LED.
US10811380B2
The present invention relates to a semiconductor structure and a manufacturing method thereof. The semiconductor structure includes: a first substrate; a first adhesive layer disposed on a surface of the first substrate; and a first bonding layer disposed on a surface of the first adhesive layer. A density of the first adhesive layer is greater than a density of the first bonding layer. The first adhesive layer of the semiconductor structure has higher adhesion with the first substrate and first bonding layer, such that it is advantageous to improve a performance of the semiconductor structure.
US10811378B2
An electronic package is provided. An electronic component and a plurality of conductive pillars electrically connected with the electronic component are embedded in an encapsulating layer. Each of the conductive pillars has a circumferential surface and two end surfaces wider than the circumferential surface in width. The encapsulating layer encapsulates and protects the electronic component effectively, so as to improve the reliability of the electronic package. A method for fabricating the electronic package is also provided.
US10811368B2
According a method for manufacturing a semiconductor device of the present invention, a surface protection film having an elastic modulus of 2 GPa or more is formed on a first main surface of a semiconductor wafer where an element structure is formed, the semiconductor wafer is placed on a stage with the first main surface facing the stage, and a second main surface of the semiconductor wafer opposite to the first main surface is ground.
US10811364B2
The present disclosure relates to a shielded electronic module, which includes a module substrate, an electronic component attached to a top surface of the module substrate and encapsulated by a first mold compound, a second mold compound over a bottom surface of the module substrate, and a shielding structure. The second mold compound includes a recess extending inwardly from a bottom periphery of the second mold compound. The shielding structure completely covers a top surface of the module and extends over the side surface of the module until reaching the recess. Herein, the shielding structure is electrically grounded.
US10811361B2
The present disclosure relates to semiconductor structures and, more particularly, to seal ring structures with channels and methods of manufacture. The structure includes: a first wafer having a channel formed within a passivation layer; a second wafer having a protuberance which is insertable into the channel and which is bonded to the first wafer with eutectic bonding materials; and a plurality of stoppers or tabs extending within the channel and which provides a gap that has a dimension smaller than a gap formed in other portions of the channel.
US10811354B2
Embodiments of the present disclosure describe apparatuses, methods, and systems associated with a fuse array of an integrated circuit. An integrated circuit may include a first metallization layer including a plurality of trenches separated by an interlayer dielectric (ILD), wherein the ILD forms a protrusion that extends above a top surface of the trenches. An etch stop layer may be disposed on the first metallization layer. The integrated circuit may further include a fuse disposed on the etch stop layer, wherein the fuse includes a fuse channel coupled between an anode and a cathode, wherein the fuse channel is disposed directly above the protrusion and is in contact with the etch stop layer. The integrated circuit may additionally or alternatively include one or more dummy regions adjacent to the fuse channel and separated from the fuse channel by a dielectric material. Other embodiments may be described and/or claimed.
US10811348B2
A method of manufacturing a wiring substrate includes providing a support that includes a support substrate and first and second metal layers stacked in order over the support substrate. A surface of the second metal layer facing away from the first metal layer is a roughened surface or formed of particles. The second metal layer is selectively etchable with respect to the first metal layer. The method further includes selectively forming a third metal layer on the surface of the second metal layer, forming a first wiring layer that is a laminate of the second and third metal layers by simultaneously roughening the third metal layer and dissolving the second metal layer not covered with the third metal layer using an etchant, forming an insulating layer that covers the first wiring layer on the first metal layer, removing the support substrate, and removing the first metal layer by etching.
US10811345B2
Assembly of the semiconductor device includes the following steps: (a) mounting a semiconductor chip on the bottom electrode 40; (b) mounting the top electrode 30 on the semiconductor chip; (c) forming a sealing body 70 made of resin and provided with a convex portion 74 so as to cover the semiconductor chip; and (d) exposing the electrode surface 31 of the top electrode 30 on the top surface of the sealing body 70 and exposing the electrode surface 41 of the bottom electrode 40 on the back surface of the sealing body 70. In the step (d), at least one of the electrode surface 31 and the electrode surface 41 is exposed from the sealing body 70 by irradiating at least one of the front surface and the back surface of the sealing body 70 with the laser 110.
US10811341B2
In accordance with the present description, there is provided multiple embodiments of a semiconductor device. In each embodiment, the semiconductor device comprises a substrate having a conductive pattern formed thereon. In addition to the substrate, each embodiment of the semiconductor device includes at least one semiconductor die which is electrically connected to the substrate, both the semiconductor die and the substrate being at least partially covered by a package body of the semiconductor device. In certain embodiments of the semiconductor device, through-mold vias are formed in the package body to provide electrical signal paths from an exterior surface thereof to the conductive pattern of the substrate. In other embodiments, through mold vias are also included in the package body to provide electrical signal paths between the semiconductor die and an exterior surface of the package body. Other embodiments of the semiconductor device comprise one or more interposers which are electrically connected to the through-mold vias, and may be covered by the package body and/or disposed in spaced relation thereto. In yet other embodiments of the semiconductor device, the interposer may not be electrically connected to the through mold vias, but may have one or more semiconductor dies of the semiconductor device electrically connected thereto.
US10811339B2
A semiconductor device and a manufacturing method thereof are disclosed. In which a uniform metal layer is formed above the second metal layer of the second wafer, the uniform metal layer is electrically connected to the second metal layer, and the uniform metal layer and the first metal layer are made of the same material. The uniform metal layer and the first metal layer simultaneously exposed by the subsequently formed TSV hole are made of the same material, the degree of over-etching is relatively easy to control in the etching process, and cross contamination of cleaning agents in the cleaning process can be avoided. In addition, when the interconnection layer is electrically connected to the first metal layer and the uniform metal layer, since the uniform metal layer and the first metal layer are made of the same material, the interconnection layer has better contact performance with the two.
US10811336B2
Electronic devices, memory devices, and computing devices are disclosed. An electronic device includes electronic circuitry, a temperature sensor, a heat sink, at least one thermoelectric material, a thermally conductive material configured to thermally couple the electronic circuitry to the at least one thermoelectric material, and a transistor. The temperature sensor is configured to monitor a temperature of the electronic circuitry. The transistor is configured to selectively enable thermoelectric current to flow through the at least one thermoelectric material and dissipate heat from the thermally conductive material to the heat sink responsive to fluctuations in the temperature of the electronic circuitry detected by the temperature sensor.
US10811334B2
An integrated circuit has a substrate and an interconnect region disposed on the substrate. The interconnect region has a plurality of interconnect levels. The integrated circuit includes a thermal routing structure in the interconnect region. The thermal routing structure extends over a portion, but not all, of the integrated circuit in the interconnect region. The thermal routing structure includes a cohered nanoparticle film in which adjacent nanoparticles cohere to each other. The thermal routing structure has a thermal conductivity higher than dielectric material touching the thermal routing structure. The cohered nanoparticle film is formed by a method which includes an additive process.
US10811326B1
A method of detecting undesired surface effects while lasing a semiconductor during a laser marking, (dicing, fuse cutting or otherwise) process. A detection device is placed near the site of semiconductor lasing to detect erroneous laser markings resulting in the undesired surface effects. Upon identifying such a condition, lasing may be interrupted in-process.
US10811323B2
A metrology target includes: a first structure arranged to be created by a first patterning process; and a second structure arranged to be created by a second patterning process, wherein the first structure and/or second structure is not used to create a functional aspect of a device pattern, and wherein the first and second structures together form one or more instances of a unit cell, the unit cell having geometric symmetry at a nominal physical configuration and wherein the unit cell has a feature that causes, at a different physical configuration than the nominal physical configuration due to a relative shift in pattern placement in the first patterning process, the second patterning process and/or another patterning process, an asymmetry in the unit cell.
US10811322B1
A method of forming a semiconductor structure includes forming vertical fins comprising a first semiconductor layer, an isolation layer and a second semiconductor layer, the first and second semiconductor layers providing vertical transport channels for lower and upper vertical transport field-effect transistors (VTFETs) of a stacked VTFET structure. The method also includes forming a first gate stack for the lower VTFET surrounding a first portion of the first semiconductor layer of the vertical fins. The method further includes forming a second gate stack for the upper VTFET surrounding a second portion of the second semiconductor layer of the vertical fins. The first and second portions have different sizes such that the upper and lower VTFETs of the stacked VTFET structure have different effective gate widths.
US10811320B2
A method includes forming a gate stack, which includes a first portion over a portion of a first semiconductor fin, a second portion over a portion of a second semiconductor fin, and a third portion connecting the first portion to the second portion. An anisotropic etching is performed on the third portion of the gate stack to form an opening between the first portion and the second portion. A footing portion of the third portion remains after the anisotropic etching. The method further includes performing an isotropic etching to remove a metal gate portion of the footing portion, and filling the opening with a dielectric material.
US10811315B2
A method of producing a through semiconductor via (TSV) connection is disclosed. In one aspect, an opening of the TSV is produced for contacting a first semiconductor die bonded to a second die or to a temporary carrier. The first die includes fin-shaped devices in the front end of line of the die. Etching of the TSV opening does not end on a metal pad, but the opening is etched until reaching a well that is formed of material of a first doping type and formed in the first die amid semiconductor material of a second doping type opposite the first. After filling the TSV opening with a conductive material, the TSV connects to a conductor of an intermediate metallization (IM) of the first die through at least one fin extending from the well and connected to the conductor. A package of dies comprising at least one TSV produced by the above method is also disclosed.
US10811314B2
A method of making a semiconductor device includes plating a first conductive material over a first passivation layer, wherein the first conductive material fills an opening in the first passivation layer and electrically connects to an interconnect structure. The method further includes planarizing the first conductive material, wherein a top surface of the planarized first conductive material is coplanar with a top surface of the first passivation layer. The method further includes depositing a second conductive material over the first passivation layer, wherein the second conductive material is different from the first conductive material, and the second conductive material is electrically connected to the first conductive material in the opening. The method further includes patterning the second conductive material to define a redistribution line (RDL).
US10811312B2
A method of fabricating an integrated circuit (IC) chip is disclosed. The method starts with opening a window on a first surface of the IC chip through a passivation overcoat to expose the copper metallization layer. The window has sidewalls and a bottom that is adjacent the copper metallization layer. The method continues with depositing a barrier conductive stack on the passivation overcoat and exposed portions of the copper metallization layer, then depositing a sacrificial conductive stack on the barrier conductive stack. The sacrificial conductive stack has a thickness between 50 Å and 500 Å. The first surface of the semiconductor chip is polished to remove the sacrificial conductive stack and the barrier conductive stack from the surface of the passivation overcoat.
US10811309B2
A method of forming a semiconductor structure includes the following steps. A dielectric layer is formed over a conductive line. A patterned photoresist layer is formed over the dielectric layer, wherein the patterned photoresist layer has an opening exposing the dielectric layer. The dielectric layer is etched to form a via hole in the dielectric layer using the patterned photoresist layer as an etch mask. The opening of the patterned photoresist layer is laterally expanded. After the opening of the patterned photoresist layer is laterally expanded, the dielectric layer is etched to expand the via hole using the patterned photoresist layer as an etch mask. A conductive via is formed in the expanded via hole.
US10811301B2
A method and apparatus for a pedestal is provided. In one embodiment, the pedestal includes a body comprising a ceramic material having a flange, one or more heating elements embedded in the body, a first shaft coupled to the flange, and a second shaft coupled to the first shaft; wherein the second shaft includes a plurality of fluid channels formed therein that terminate in the second shaft.
US10811293B2
A substrate transfer hand coupled to a robot arm includes a base part coupled to the robot arm; and a substrate holding part coupled to the base part to hold a substrate. When viewed in a substrate perpendicular line direction perpendicular to the substrate held by the substrate holding part, the substrate transfer hand is bent at a coupling portion at which the base part and the substrate holding part are coupled to each other or a region which is in the vicinity of the coupling portion, and the base part and the substrate transfer hand have a V-shape, as a whole.
US10811290B2
In an embodiment, a workstation includes: a processing chamber configured to process a workpiece; a load port configured to interface with an environment external to the workstation; a robotic arm configured to transfer the workpiece between the load port and the processing chamber; and a defect sensor configured to detect a defect along a surface of the workpiece when transferred between the load port and the processing chamber.
US10811274B2
A method of etching selectively etches a first region of a substrate with respect to a second region of the substrate formed of a different material from the first region. A deposition film is formed of a chemical species included in plasma generated from a first gas. A gaseous precursor is supplied to the substrate having the deposition film formed thereon to form an adsorption film on the substrate from the precursor. Ions from plasma generated from a second gas are supplied to the substrate having the deposition film and the adsorption film formed thereon so as to cause a reaction between the material of the first region and a chemical species included in the deposition film, so that the first region is etched. The adsorption film reduces the etching rate of the second region during the etching of the first region.
US10811261B2
Some embodiments of the present disclosure provide a semiconductor device. The semiconductor device includes a semiconductive substrate. A donor-supply layer is over the semiconductive substrate. The donor-supply layer includes a top surface. A gate structure, a drain, and a source are over the donor-supply layer. A passivation layer covers conformally over the gate structure and the donor-supply layer. A gate electrode is over the gate structure. A field plate is disposed on the passivation layer between the gate electrode and the drain. The field plate includes a bottom edge. The gate electrode having a first edge in proximity to the field plate, the field plate comprising a second edge facing the first edge, a horizontal distance between the first edge and the second edge is in a range of from about 0.05 to about 0.5 micrometers.
US10811260B2
A method for fabricating a semiconductor device includes: forming a gate trench in a semiconductor substrate; forming a gate dielectric layer over a bottom surface and sidewalls of the gate trench; forming a first work function layer over the gate dielectric layer; doping a work function adjustment element to form a second work function layer which overlaps with the sidewalls of the gate trench; forming a gate conductive layer that partially fills the gate trench; and forming doped regions inside the semiconductor substrate on both sides of the gate trench.
US10811259B2
The disclosure discloses an ion injecting device, and an ion injecting method thereof, where the ion injecting device is modified by adding a vacant baffle between a process chamber and an analyzing magnet. Moreover the vacant baffle is closed before an engineer opens the process chamber for cleaning, so that the process chamber is separated from the analyzing magnet, thus maintaining a vacuum environment in the analyzing magnet. Subsequently only a vacuum environment in the process chamber will be created again.
US10811258B1
The present invention provides a method for improving the quality of a high-voltage metal oxide semiconductor (HV MOS), the method includes: firstly, a substrate is provided, next, a hard mask layer is formed on the substrate, an oxygen plasma treatment is then performed to the hard mask layer, so as to form an oxide layer on the hard mask layer. Afterwards, a patterned photoresist layer is formed on the oxide layer, and a first cleaning process is performed to a top surface of the oxide layer after the patterned photoresist layer is formed, wherein the first cleaning process comprises rinsing the oxide layer with carbonated water. Next, a first etching process is performed to remove parts of the hard mask layer, and the patterned photoresist layer is then removed. Afterwards, a second etching process is performed, to remove the oxide layer.
US10811249B2
Atomic layer deposition processes for forming germanium oxide thin films are provided. In some embodiments the ALD processes can include the following: contacting the substrate with a vapor phase tetravalent Ge precursor such that at most a molecular monolayer of the Ge precursor is formed on the substrate surface; removing excess Ge precursor and reaction by products, if any; contacting the substrate with a vapor phase oxygen precursor that reacts with the Ge precursor on the substrate surface; removing excess oxygen precursor and any gaseous by-products, and repeating the contacting and removing steps until a germanium oxide thin film of the desired thickness has been formed.
US10811244B2
The present disclosure relates generally to a method of separating ions according to their ion mobility, comprising (i) accumulating a first population of ions in a first region of an ion mobility separator, (ii) separating said first population of ions according to their ion mobility in said first region of said ion mobility separator, and (iii) accumulating a second population of ions in said first region of said ion mobility separator whilst said first population of ions are being separated according to their ion mobility in said ion mobility separator.
US10811234B2
A plasma processing apparatus includes supporting members, connecting members and a sliding member. Each of the supporting members is partially disposed in a disc-shaped cooling plate and configured to support an upper electrode in a direction of gravity. Each of the connecting members is partially disposed in the cooling plate and extends in a diametrical direction of the cooling plate to be engaged with the corresponding supporting member. The sliding member is configured to slide the connecting members inward in the diametrical direction of the cooling plate, thereby pushing upward the supporting member and lifting the upper electrode to the cooling plate.
US10811229B2
Plasma processing systems and methods are disclosed. The method includes generating and sustaining a plasma in a plasma chamber and producing a surface potential on a surface of a workpiece in the plasma chamber by applying, with a bias supply, an output waveform to a bias electrode within the plasma chamber where the output waveform has a repetition period, T. A waveform dataset is produced to represent the output waveform of the bias supply during the repetition period, T, and the waveform dataset is sent to one or more other pieces of equipment connected to the plasma chamber. A synchronization pulse with a synchronization-pulse-repetition-period is sent to the one or more other pieces of equipment connected to the plasma chamber to enable synchronization among the one or more other pieces of equipment.
US10811218B2
There is provided a tilting parameters calculating device for use in a charged particle beam device for making a charged particle beam irradiated to a surface of a sample mounted on a sample stage, the tilting parameters calculating device being configured to calculate tilting parameters, the tilting parameters being input parameters to control a tilting direction and a tilting value of the sample and/or the charged particle beam, the input parameters being necessary to change an incident direction of the charged particle beam with respect to the sample, the tilting parameters calculating device including a tilting parameters calculating unit for calculating the tilting parameters based on information that indicates the incident direction of the charged particle beam with respect to a crystal lying at a selected position on the surface in a state where the incident direction of the charged particle beam with respect to the sample is in a predetermined incident direction, the information being designated on a crystal orientation figure, which is a diagram illustrating the incident direction of the charged particle beam with respect to a crystal coordinate system of the crystal.
US10811216B2
A method for automatically aligning a scanning tunneling electron microscope (STEM) for acquiring precession electron diffraction (PED) mapping data includes the generation of an incident electron beam aligned with a STEM optic axis and focused on a sample region. A non-inclined signal is acquired of the spatial distribution from the sample region, by scanning the aligned incident beam across multiple discrete locations and acquiring a signal associated with each location. The method can further include the inclination of the incident electron beam to a fixed inclination angle relative to the optic axis and then acquiring an inclined signal spatial distribution from the sample region by scanning the inclined incident beam across the multiple discrete locations while applying a cyclic azimuthal scanning protocol to the inclined beam and acquiring a signal associated with each location. An azimuthal spatial alignment correction is determined by comparing the non-inclined and inclined signal spatial distributions.
US10811206B2
Micro-Electro-Mechanical System (MEMS) structures, methods of manufacture and design structures are provided. The method of forming a MEMS structure includes forming fixed actuator electrodes and a contact point on a substrate. The method further includes forming a MEMS beam over the fixed actuator electrodes and the contact point. The method further includes forming an array of actuator electrodes in alignment with portions of the fixed actuator electrodes, which are sized and dimensioned to prevent the MEMS beam from collapsing on the fixed actuator electrodes after repeating cycling. The array of actuator electrodes are formed in direct contact with at least one of an underside of the MEMS beam and a surface of the fixed actuator electrodes.
US10811204B2
An electromagnetic relay includes an armature, and a movable body configured to move in association with a swing of the armature. The armature includes a support portion opposed to a leg portion of an iron core, a magnetic pole opposed to another leg portion of the iron core, and an arm portion extending to connect the support portion and the magnetic pole. A movable body is attached to the arm portion and provided with a pressure projection for moving movable contacts. The pressure projection is located on a segment connecting the center of gravity of the support portion and the center of gravity of the magnetic pole.
US10811201B1
In some embodiments, a keyboard may comprise internal light sources to backlight keycaps. In addition, the keyboard may provide one or more unobstructed paths for light from an external light source located beneath the keyboard to reach the keycaps. When the keyboard is placed onto the external light source, the keycaps within the keyboard may be illuminated from the external light source. When the keyboard is placed on a display device of a dual-display computing device, one display device may be used to present text and images to a user while the other display device provides backlighting for the keyboard. Software may manage the image shown on the display device located under the keyboard device to alter the appearance of the keycaps. The keyboard battery life may be extended by disabling key backlights within the keyboard when the dual-display computing device provide the backlight.
US10811196B2
Deformable electrodes, deformable supercapacitors comprising the deformable electrodes, and electric circuits comprising the supercapacitors are provided. Methods of using the supercapacitors to convert mechanical energy to electrical energy are also provided. The supercapacitors include a liquid electrolyte disposed between two electrodes, at least one of which is reversibly deformable when it is compressed. The liquid electrolyte is infused into the deformable electrode and the supercapacitors are characterized in that the deformation of the deformable electrodes causes the interfacial area between the electrolyte and the deformable electrode to decrease when the electrode is deformed.
US10811193B2
A capacitor component includes a porous body, a first electrode layer covering surfaces of pores of the porous body, a dielectric layer covering the first electrode layer, and a second electrode layer filling the pores of the porous body and covering the dielectric layer.
US10811192B2
Multilayer ceramic capacitor structures may include structural arrangements, materials, and/or substrate modifications that can improve the reliability of the capacitor for long-term usage when faced with environmental stress. Embodiments may implement reduced entryways in the termination patterns of the capacitor to decrease damage potential due to exposure of moisture. Embodiments may implement structures that decrease interfaces with different physical characteristics, which may lead to a reduction in the formation of micro-fractures during regular usage. Methods of manufacture for the features that improve reliability are also detailed.
US10811180B1
An electrical transformer system includes an electrical transformer and a depressurization system in fluid communication with an outlet of the electrical transformer. The depressurization system may include a rupture disk having a downwardly facing domed portion extending toward the outlet of the electrical transformer. The domed portion has an apex and a base with a retention portion surrounding the domed portion adjacent the base. A score line network extends circumferentially around the domed portion adjacent the base and spaced apart from the apex. The score line network includes a plurality of serrated score line segments and a plurality of hinge score line extending from the score line segments towards the apex of dome portion. The rupture disk may be interested into a housing assembly with a removable cover.
US10811179B2
A coil component includes a coil having inner and outer circumferential surfaces, a pair of end surfaces, and a core surrounding at least a part of a periphery of the core. A cross section is where the coil component is cut by a plane, when each of coil sections is divided into eight regions by four straight lines extending along the inner circumferential surface, the outer circumferential surface and the end surfaces. In the cross section, first core members positioned at four corner regions, second core members positioned at an inner side of the inner circumferential surface and an outer side of the outer circumferential surface, and third core members, positioned at outer sides of the end surfaces form the core. At least one of the second and third core members has a magnetic permeability lower than that of the first core member in a zero magnetic field.
US10811172B2
A continuous processing system and method for the continuous processing of an electrical conductor cable having aluminum strands encasing a steel core directly from a puller or from a puller and reel, simultaneously or on-the-fly during substantially the entirety of a reconductoring or re-stringing of the cable, wherein such cables are used for power lines or for static wires. The system is adapted to cooperate with a pulling machine. The pulling machine may be formed integrally within the system or may be a conventional pulling machine which cooperates with the system. The processing system runs continuously, substantially without interruption, during the pull of all of the cable from the pull zone of the reconductoring or restringing.
US10811166B2
Embodiments of the present disclosure pertain to methods of making conductive films by associating an inorganic composition with an insulating substrate, and forming a porous inorganic layer from the inorganic composition on the insulating substrate. The inorganic layer may include a nanoporous metal layer, such as nickel fluoride. The methods of the present disclosure may also include a step of incorporating the conductive films into an electronic device. The methods of the present disclosure may also include a step of associating the conductive films with a solid electrolyte prior to its incorporation into an electronic device. The methods of the present disclosure may also include a step of separating the inorganic layer from the conductive film to form a freestanding inorganic layer. Further embodiments of the present disclosure pertain to the conductive films and freestanding inorganic layers.
US10811163B2
A cable includes at least one electrical conductor and at least one electrically insulating layer surrounding the electrical conductor, wherein the at least one electrically insulating layer includes: (a) a thermoplastic polymer material selected from: at least one copolymer (i) of propylene with at least one olefin comonomer selected from ethylene and an V-olefin other than propylene, the copolymer having a melting point greater than or equal to 130° C. and a melting enthalpy of from 20 J/g to 90 J/g; a blend of at least one copolymer (i) with at least one copolymer (ii) of ethylene with at least one V-olefin, the copolymer (ii) having a melting enthalpy of from 0 J/g to 70 J/g; a blend of at least one propylene homopolymer with at least one copolymer (i) or copolymer (ii); a blend of at least one propylene homopolymer with at least one copolymer (i) or copolymer (ii); (b) at least one nano-sized filler; wherein at least one of copolymer (i) and copolymer (ii) is a heterophasic copolymer.
US10811162B2
Provided are method for healing defect of conductive layer, method for forming metal-carbon compound layer, 2D nano materials, and transparent electrode and method for manufacturing the same. According to an embodiment of present invention, the method for healing defect of conductive layer comprises: forming a conductive layer on a first metal substrate; contacting the first metal substrate with a salt solution containing a second metal in an ionic form, and forming a second metal particle at least in a portion of a conductive area, the second metal having greater reduction potential than a first metal.
US10811161B2
The present invention relates to a composite material based on aluminium and alumina, its method of manufacture, and a cable comprising said composite material as an electrical conductor element.
US10811160B2
A process for manufacturing a thermoelectric material having a plurality of grains and grain boundaries. The process includes determining a material composition to be investigated for the thermoelectric material and then determining a range of values of grain size and/or grain boundary barrier height obtainable for the material composition using current state of the art manufacturing techniques. Thereafter, a range of figure of merit values for the material composition is determined as a function of the range of values of grain size and/or grain boundary barrier height. And finally, a thermoelectric material having the determined material composition and an average grain size and grain boundary barrier height corresponding to the maximum range of figure of merit values is manufactured.
US10811157B2
Various embodiments of a nuclear radiation particle power converter and method of forming such power converter are disclosed. In one or more embodiments, the power converter can include first and second electrodes, a three-dimensional current collector disposed between the first and second electrodes and electrically coupled to the first electrode, and a charge carrier separator disposed on at least a portion of a surface of the three-dimensional current collector. The power converter can also include a hole conductor layer disposed on at least a portion of the charge carrier separator and electrically coupled to the second electrode, and nuclear radiation-emitting material disposed such that at least one nuclear radiation particle emitted by the nuclear radiation-emitting material is incident upon the charge carrier separator.
US10811147B2
The present invention provides a passive residual heat removal system and an atomic power plant comprising the same, the passive heat removal system comprising: a plate-type heat exchanger for causing heat exchange between a primary system fluid or a secondary system fluid which, in order to remove sensible heat from an atomic reactor cooling material system and residual heat from a reactor core, has received the sensible heat and the residual heat, and a cooling fluid which has been introduced from outside of a containment unit; and circulation piping for connecting the atomic reactor cooling material system to the plate-type heat exchanger, thereby forming a circulation channel of the primary system fluid, or connecting a steam generator, which is arranged at the boundary between the primary and secondary systems, to the plate-type heat exchanger, thereby forming a circulation channel of the secondary system fluid.
US10811146B2
Process for manufacturing a nuclear component comprising i) a support containing a substrate based on a metal (1), the substrate (1) being coated or not coated with an interposed layer (3) positioned between the substrate (1) and at least one protective layer (2) and ii) the protective layer (2) composed of a protective material comprising amorphous chromium carbide; the process comprising a step a) of vaporizing a mother solution followed by a step b) of depositing the protective layer (2) onto the support via a process of chemical vapor deposition of an organometallic compound by direct liquid injection (DLI-MOCVD).
US10811145B2
Provided is a plasma diagnosis system using multiple-path Thomson scattering, including: a laser which supplies laser pulse; an optical system which is configuring to focus alternately a vertical polarization of the laser pulse and a horizontal polarization of the laser pulse on first and second focal points in a plasma; a collection optic which collects lights scattered from the first and second focal points in plasma; a polychromator which filters the lights collected by the collection optics according to spectral characteristics; and a computer which measures spectral characteristics by using the filtered lights. Thomson scattered light which is contaminated with noise due to stray lights is produced in the first collected scattering while the noise due to stray lights is produced in the second collected scattering.
US10811144B2
Examples of a system for generating and compressing magnetized plasma are disclosed. The system comprises a plasma generator with a first closed end and an outlet, and a flux conserving chamber that is in tight fluid communication with the outlet of the plasma generator such that the generated plasma is injected into an inner cavity of the flux conserving chamber. An elongated central axial shaft is also provided such that the central shaft extends through the outlet of the plasma generator into the flux conserver. The end of the central shaft in connected to the flux conserver. A power source that comprises a formation power circuit and a shaft power circuit is provided to provide a formation power pulse to the plasma generator to generate magnetized plasma, and a shaft power pulse to the central axial shaft to generate a toroidal magnetic field into the plasma generator and the flux conserving chamber. The duration of the shaft power pulse is longer than the duration of the formation power pulse to maintain plasma q-profile at a pre-determined range. During plasma compression the shaft power pulse is increased to match the raise of the plasma poloidal field due to the compression and thus maintain the q-profile of the plasma.
US10811140B2
A method of setting up a wearable user device to allow a user to scan products and obtain product recommendations based on the user's personal biological/genetic data, using a cartridge to perform a test on the user's personal biological/genetic data via a desktop test control system into which the cartridge is plugged. A user account is associated with a cartridge ID read from the cartridge. The cartridge ID is also read using the wearable user device and passed to the server when the wearable user device is coupled to the test control system, associating the test with the user account. The test control system communicates test results to the server which analyses the test results to generate analysis results. The analysis results are then downloaded to the wearable user device. Product codes are also downloaded to the wearable user device, and stored in association with the product codes.
US10811139B1
Embodiments in the present disclosure relate generally to computer network architectures for machine learning, artificial intelligence, and dynamic patient guidance. Embodiments automatically update patient guidance in the patient care plan, based on the effectiveness of the guidance to date, attributes of the patient, other updated information, ongoing experience of the network, and updated predictions of possible patient outcomes and metrics.
US10811133B2
A dosing controller for administering insulin. The dosing controller includes a data processing device and non-transitory memory in communication with the data processing device. The dosing controller receives blood glucose measurements of a patient from the glucometer, receives patient information, selects a subcutaneous insulin treatment from a collection of subcutaneous insulin treatments based on the blood glucose measurements and the patient information, and executes the selected subcutaneous insulin treatment. Each blood glucose measurement is separated by a time interval and includes a blood glucose time associated with a time of measuring the blood glucose measurement.
US10811131B2
A system for use with one or more sources of patient-affiliated data corresponding with a group of patients. The system may contain a plurality of patient interface devices for interfacing with the group of patients. Each patient interface device may store a database that includes information related to each patient of the group of patients. Each patient interface device may be operable to generate a patient-specific guidance data set that may be used by the patient interface device to interface with a patient of the group of patients. The plurality of patient interface devices may be communicatively coupled to patient-affiliated data and a therapy database via a patient interface device gateway. The patient-specific guidance data sets may be automatically updated.
US10811130B2
Method of scheduling drug administration using a pulse-oximetry integrated intravenous fluid system comprising retrieving from at least one network server database via an intravenous pump unit patient-related and drug-related data and information. The retrieved data are displayed on the intravenous pump unit interface and then a patient's pulse oximetry data is acquired. Using the pulse oximetry data, patient history, patient condition, diagnosis, and information relating to the one or more drugs, a medical personnel determines a schedule of drug administration. During the set duration of a drug administration schedule, one or more observed effects of the one or more drugs administered to the patient via the intravenous pump unit interface is inputted into the IV pump unit, and the patient record stored in the at least one network database is updated.
US10811129B2
Configuration software implements techniques for customizing names of insulin delivery profiles with improved patient safety. The techniques include: receiving a string of characters which serve as a name for a given insulin delivery profile, where the insulin delivery profile includes at least one parameter pertaining to insulin delivery by an insulin pump and is one of a plurality of insulin delivery profiles associated with a given patient; normalizing the string of characters in accordance with a rule set; comparing the normalized string of characters with names for each of the plurality of insulin delivery profiles; and updating the name of the given insulin delivery profile in a pump configuration file residing on the configuration device when the normalized string of characters is unique in relation to the names of the plurality of insulin delivery profiles.
US10811127B1
A system and method for automating the process of renewing prescriptions on behalf of patients using machine navigation of Interactive Voice Response (IVR) trees used for the refilling of prescriptions used by most local pharmacies.
US10811124B2
A blockchain configured device-driven disintermediated distributed system for facilitating multi-faceted communication over a network. The system includes entities connected with a communications network. Each of the entities and associated devices and sensors and networks serve as a source of data records. The system includes a blockchain configured data bank accessible by each of the plurality of entities based on rules and preferences of the entities upon authorization by the blockchain configured data bank. The blockchain configured data bank includes a processing component for executing stored instructions to process the data records of the entities over the communications network. The system includes a blockchain configured component communicatively coupled to the blockchain configured data bank and adapted to be accessible by each of the plurality of entities. The system includes a validation device including a facial expression-based validation device and a geo-tagging-based validation device.
US10811118B2
A test interface board includes one or more relay circuits and a synchronization signal generator. The relay circuits duplicate a test signal from an automated test equipment (ATE), apply duplicated test signals to each of a plurality of devices under test (DUTs) through one of corresponding channels, and provide the ATE with a plurality of test result signals received from each of the DUTs in response to the duplicated test signals. The synchronization signal generator receives a plurality of status signals from each of the DUTs and provides a timing synchronization signal to the ATE. Each of the status signals indicates a completion of a test operation in one of the DUTs, the test operation is associated with the test signal, and the synchronization signal generator activates the timing synchronization signal when all of the status signals indicate the completion of the test operation.
US10811111B1
Programming in a non-volatile memory device includes applying at least one programming pulse to a non-volatile memory cell during a first programming loop; applying at least one programming pulse to the non-volatile memory cell during a second programming loop succeeding the first programming loop; and providing a bitline bias voltage of the non-volatile memory cell according to a result of comparing a threshold voltage of the non-volatile memory cell in the first programming loop with a low verify level and/or a high verify level of a target data state of the non-volatile memory cell and a result of comparing a threshold voltage of the non-volatile memory cell in the second programming loop with the low verify level and/or the high verify level of the target data state of the non-volatile memory cell.
US10811109B2
Techniques are provided to reduce neighbor word line interference and charge loss in a multi-pass program operation. In one implementation, the first pass of a multi-pass program operation uses one or more program pulses without performing associated verify tests. The memory cells may be programmed to different intermediate threshold voltage (Vth) distributions in the first program pass. Different bit line voltages can be used to obtain the different intermediate Vth distributions when the single program pulse is applied. In other cases, multiple program pulses are applied without performing verify tests. The intermediate Vth distributions can be provided for the memory cells assigned to the higher data states but not the lower data states, or for memory cells assigned to both the higher and lower data states.
US10811107B2
Provided are a semiconductor memory device and a memory system including the same. The semiconductor memory device includes an external power supply voltage terminal configured to receive an external power supply voltage, an external ground voltage terminal configured to receive an external ground voltage, a ground voltage noise detector configured to detect a difference between the external ground voltage and an internal ground voltage of an internal ground voltage node and generate a ground voltage noise reference voltage, an internal power supply voltage reference voltage generator configured to generate an internal power supply voltage reference voltage based on the external power supply voltage and the ground voltage noise reference voltage, and an internal power supply voltage driver configured to generate an internal power supply voltage based on the internal power supply voltage reference voltage.
US10811102B2
A flash memory storage apparatus and a reading method thereof are provided. The flash memory storage apparatus includes a memory cell array and a memory control circuit. The memory cell array includes at least one memory cell string coupled between a bit line and a source line. The memory control circuit is coupled to the memory cell array and configured to control a read operation of the memory cell array during the reading period. The reading period includes a pre-charge period and a discharge period. The source line performs a pre-charge operation on the bit line via a signal transmission path during the pre-charge period. The bit line performs a discharge operation on the source line via the same signal transmission path during the discharge period. The signal transmission path includes the memory cell string.
US10811096B2
A memory system may include one or more hybrid fast memory blocks with m-bit fast volatile random access memory (RAM) cells and N×m bit non-volatile memory (NVM) cells. The memory system may also include one or more other memory blocks with NVM cells. The fast flash memory may buffer the NVM data improving access speed. The different memory blocks may utilize a single, unified interface to communicate with other devices/circuits. The unified interface may be a parallel interface (e.g., flash memory/SRAM combinations), or the unified interface may be a pipeline interface (e.g., system on a chip “SOC” implementations) supporting fast memory read/write operations.
US10811095B2
A semiconductor storage device includes first lines second lines, and memory cells. The detection circuit detects data stored in the memory cells. A first transistor is electrically connected to the second lines between the memory cells and the detection circuit. A controller brings the first transistor to an intermediate state between an on-state and an off-state and thereafter brings the first transistor to the on-state to transmit a voltage of the second line to the detection circuit, in a data read operation, while a read voltage is applied to a first memory cell among the memory cells, the first memory cell being connected to a selected first line selectively driven from among the first lines and connected to a selected second line selectively driven from among the second lines, and the first transistor connected to the selected second line.
US10811094B2
A memory device may include a memory cell array including a plurality of memory cells and a compensation resistor electrically connected to the memory cell array. The compensation resistor may generate a cell current compensating for a voltage drop generated in a parasitic resistor of a signal line connected to at least one memory cell of the plurality of memory cells. The compensation circuit may control a magnitude of resistance of a compensation resistor upon receiving an address corresponding to the memory cell. The compensation circuit may increase a magnitude of the cell current based on adjusting the magnitude of resistance of the compensation resistor to be substantially equal to a resistance value of the parasitic resistor.
US10811093B2
In an embodiment, a method of accessing logic data stored in a differential memory using single-ended mode includes: storing second logic data in an auxiliary memory module of the differential memory by copying first logic data stored in a first main memory module of the differential memory into the auxiliary memory module; refreshing the first logic data; receiving a request for reading the first logic data; when refreshing the first logic data, fetching the second logic data when refreshing the first logic data in response to the request for reading the first logic data; and when not refreshing the first logic data, fetching the first logic data in response to the request for reading the first logic data.
US10811092B1
The disclosure is directed to a RRAM having a plurality of 1TnR structures. In an aspect, the disclosure provides a RRAM including a plurality of 1TnR structures which includes a first 1TnR structure which includes a first transistor having a first gate terminal connected to a first word line, a first drain terminal, and a first source terminal connected to a source line, wherein the source line is connected to each of the plurality of 1TnR structures; and a first N parallel resistors group including a first resistor and a second resistor which are connected to the first drain terminal and connected to each other in parallel, wherein the first resistor is connected to a first bit line, the second resistor is connected to a second bit line, and N is an integer greater than one.
US10811091B2
A device that includes a non-volatile memory and a controller. The controller is coupled to the non-volatile memory. The controller includes a non-transitory computer readable medium and a processor. The controller includes computer executable instructions stored in the computer readable medium to, using the processor, retrieve a flash memory page from the non-volatile memory, determine a memory parameter associated with the flash memory pages, determine a read threshold voltage scanning order based on the memory parameter, and perform read threshold voltage calibration according to the read threshold voltage scanning order.
US10811089B2
Apparatuses, systems, and methods are disclosed for adjusting a programming setting such as a programming voltage of a set of non-volatile storage cells, such as an SLC NAND array. The non-volatile storage cells may be arranged into a plurality of word lines. A subset of the non-volatile storage cells may be configured to store a programming setting. An on-die controller may be configured to read the programming setting from the setting subset, and write data to the non-volatile storage cells, using the programming setting. The on-die controller may further be configured to determine that the programming setting causes suboptimal programming of one or more of the non-volatile storage cells, and in response to the determination, store a revised programming setting on the setting subset.
US10811066B2
Apparatuses and methods for targeted row refreshes are disclosed herein. In an example apparatus, a predecoder receives a target row address and determines whether a target row of memory associated with the target row address is a primary or a redundant row of memory. The predecoder is further configured to cause one or more rows of memory physically adjacent the primary row of memory to be refreshed if the primary row is the target row or one or more rows of memory physically adjacent the redundant row of memory to be refreshed if the redundant row of memory is the target row of memory.
US10811058B2
A bonded assembly includes a memory die bonded to a support die. The memory die contains at least one three-dimensional array of memory elements, memory-die dielectric material layers, and memory-die bonding pads. The support die contains at least one peripheral circuitry including complementary metal-oxide-semiconductor (CMOS) devices and configured to generate control signals for, and receive sense signals from, the at least one three-dimensional array of memory elements and a functional module and configured to provide a functionality that is independent of operation of the at least one three-dimensional array of memory elements. The functional module may include an error correction code (ECC) module, a memory module configured to interface with an external processor module located outside of the memory die, a microprocessor unit module, a wireless communication module, and/or a system level controller module.
US10811056B2
Recorded video information is managed by annotation markers. The recorded video information is annotated with at least one marker and the annotated video information is saved in an electronically searchable file.
US10811032B2
A method and apparatus to determine a direction of arrival (DOA) of a talker in the presence of a source of spatially-coherent noise. A time sequence of audio samples that include the spatially-coherent noise is received and buffered. Aided by previously known data, a trigger point is detected in the time sequence of audio samples when the talker begins to talk. The buffered time sequence of audio samples is separated into a noise segment and a signal-plus-noise segment based on the trigger point. For each direction of a plurality of distinct directions: an energy difference is computed for the direction between the noise segment and the signal-plus-noise segment, and the DOA of the talker is selected as the direction of the plurality of distinct directions having a largest of the computed energy differences.
US10811029B1
A system configured to perform cascade echo cancellation processing to improve a performance when reference signals are asymmetric (e.g., dominant reference signal(s) overshadow weak reference signal(s)). The system may perform cascade echo cancellation processing to separately adapt filter coefficients between the dominant reference signal(s) and the weak reference signal(s). For example, the system may use a dominant reference signal to process a microphone audio signal and generate a residual audio signal, using the residual audio signal to adapt first filter coefficient values corresponding to the dominant reference signal. Separately, the system may use a weak reference signal to process the residual audio signal and generate an output audio signal, using the output audio signal to adapt second filter coefficient values corresponding to the weak reference signal.
US10811023B2
The present document relates to time-alignment of encoded data of an audio encoder with associated metadata, such as spectral band replication (SBR) metadata. An audio decoder configured to determine a reconstructed frame of an audio signal from an access unit of a received data stream is described. The access unit comprises waveform data and metadata, wherein the waveform data and the metadata are associated with the same reconstructed frame of the audio signal. The audio decoder comprises a waveform processing path configured to generate a plurality of waveform subband signals from the waveform data, and a metadata processing path configured to generate decoded metadata from the metadata.
US10811016B2
A method of controlling a terminal is provided. The method includes analyzing a sensed voice when a voice is sensed, recognizing a context based a result of the analysis, and performing a predetermined control operation based on the recognized context.
US10811015B2
Systems and methods for optimizing voice detection via a network microphone device (NMD) based on a selected voice-assistant service (VAS) are disclosed herein. In one example, the NMD detects sound via individual microphones and selects a first VAS to communicate with the NMD. The NMD produces a first sound-data stream based on the detected sound using a spatial processor in a first configuration. Once the NMD determines that a second VAS is to be selected over the first VAS, the spatial processor assumes a second configuration for producing a second sound-data stream based on the detected sound. The second sound-data stream is then transmitted to one or more remote computing devices associated with the second VAS.
US10811011B2
System and method for correcting for impulse noise in speech recognition systems. One example system includes a microphone, a speaker, and an electronic processor. The electronic processor is configured to receive an audio signal representing an utterance. The electronic processor is configured to detect, within the utterance, the impulse noise, and, in response, generate an annotated utterance including a timing of the impulse noise. The electronic processor is configured to segment the annotated utterance into silence, voice content, and other content, and, when a length of the other content is greater than or equal to an average word length for the annotated utterance, determine, based on the voice content, an intent portion and an entity portion. The electronic processor is configured to generate a voice prompt based on the timing of the impulse noise and the intent portion and/or the entity portion, and to play the voice prompt.
US10811009B2
An utterance is analyzed to identify an absence of a known invocation phrase. A skill set is constructed in response to the absence, the skill set including a first skill corresponding to the utterance and a first skill score corresponding to a likelihood that the first skill corresponds to the utterance. The first skill score is adjusted, based on the presence of the first skill in a skill history, where the skill history stores a set of history skills in an order of recency of use of each history skill in the set of history skills. The first skill score is adjusted, based on an association of the first skill with a default installed skill. An installed skill is selected, based on the adjusted first skill score, the installed skill performing an action in response to the utterance.
US10811000B2
Systems and methods for a speech recognition system for recognizing speech including overlapping speech by multiple speakers. The system including a hardware processor. A computer storage memory to store data along with having computer-executable instructions stored thereon that, when executed by the processor is to implement a stored speech recognition network. An input interface to receive an acoustic signal, the received acoustic signal including a mixture of speech signals by multiple speakers, wherein the multiple speakers include target speakers. An encoder network and a decoder network of the stored speech recognition network are trained to transform the received acoustic signal into a text for each target speaker. Such that the encoder network outputs a set of recognition encodings, and the decoder network uses the set of recognition encodings to output the text for each target speaker. An output interface to transmit the text for each target speaker.
US10810993B2
Methods, systems, and apparatus, including computer programs encoded on computer storage media, for generating an adaptive audio-generation model. One of the methods includes generating an adaptive audio-generation model including learning a plurality of embedding vectors and parameter values of a neural network using training data comprising first text and audio data representing a plurality of different individual speakers speaking portions of the first text, wherein the plurality of embedding vectors represent respective voice characteristics of the plurality of different individual speakers. The adaptive audio-generation model is adapted for a new individual speaker using adaptation data comprising second text and audio data representing the new individual speaker speaking portions of the second text, the new individual speaker being different from each of the plurality of individual speakers, wherein adapting the audio-generation model includes learning a new embedding vector for the new individual speaker.
US10810989B2
Earpieces and methods for acute sound detection and reproduction are provided. A method can include measuring an external ambient sound level (xASL), monitoring a change in the xASL for detecting an acute sound, estimating a proximity of the acute sound, and upon detecting the acute sound and its proximity, reproducing the acute sound within an ear canal, where the ear canal is at least partially occluded by an earpiece. Other embodiments are disclosed.
US10810971B2
A method of rendering content for display on a multi-view display includes assigning a first display to a first pixel of a pixelated array, with a plurality of pixels periodically spaced along a first axis, the first display associated with a first viewing angle relative to the first axis. The method includes assigning a second display to a second pixel of the pixelated array, display associated with a second viewing angle relative to the first axis. The method further includes controlling a filter value of the first pixel based on a rendering of first content for display, and controlling a filter value of the second pixel based on a rendering of second content for display. The first viewing angle belongs to a first range of viewing angles of an optical multiplexer disposed in front of the pixelated array.
US10810963B2
A shift register and a method for driving the same, a gate driving circuit and a display device are provided, the shift register comprising: an input sub-circuit, an output sub-circuit, a pull-down control sub-circuit, a pull-down sub-circuit, a first reset sub-circuit, and a second reset a sub-circuit, wherein the input sub-circuit and the output sub-circuit are electrically coupled to a pull-up node, the pull-down control sub-circuit, the pull-down sub-circuit, the first reset sub-circuit and the second reset sub-circuit are electrically coupled to a pull-down node, the first reset sub-circuit is electrically coupled to the input sub-circuit, and the second reset sub-circuit and the output sub-circuit are both electrically coupled to a signal output terminal.
US10810960B2
The present invention provides a display device (smartphone (3)) that realizes less power consumption for refreshing a video. The smartphone (3) includes: a host (2) configured to obtain image data which is to be supplied to an LCD panel (31); and a driver (32) configured to transmit, to the LCD panel (31), the image data so as to refresh a video which is displayed by the display panel, the driver (32) being configured to refresh a video, displayed on an extended region (312), at a refresh rate lower than that at which the driver (32) refreshes data displayed on a main region (311).
US10810959B2
A display device includes a display panel having a display surface, display drivers arranged on and along a peripheral portion of the display panel, a wiring substrate located on a side of the display panel opposite from the display surface and having a long shape extending in an arrangement direction of the display drivers, first flexible wiring substrates electrically connecting the display drivers to the wiring substrate, a second flexible wiring substrate extending from the wiring substrate toward an outer periphery of the display panel, and a control board connected to an extended end portion of the second flexible wiring substrate and configured to control the display drivers and disposed not to overlap the display panel in a thickness direction of the display panel and having a dimension in the thickness direction of the display panel larger than that of the wiring substrate.
US10810954B2
Disclosed are a driving method and a driving device for driving a display apparatus, as well as a display apparatus. The driving method includes: obtaining a first voltage driving signal and a second voltage driving signal of a sub-pixel of each of a plurality of pixels in an image; dividing each of all the sub pixels into two parts that are adjacent to each other with a stagger interval; and further dividing each of the parts into second luminescence signal values with the first luminescence signal values, where the second luminescence signal values and first luminescence signal values are adjacent to each other with a stagger interval, so as to control a display of the corresponding pixel.
US10810952B2
A display device according to one aspect of the disclosure includes a liquid crystal panel, a backlight including at least one light source to irradiate light to the liquid crystal panel, a timing controller to scan, in each frame period based on a synchronization signal which is input, the liquid crystal panel at a scan rate faster than a frame rate based on the synchronization signal, and a backlight control unit to turn on the backlight till a second time point, which is a scan time point of a next frame, from a first time point when a specified time elapses from a time point in which scan of the liquid crystal panel is finished in each frame period.
US10810948B2
A display apparatus and a method of controlling the display apparatus are provided. The display apparatus includes a display comprising a liquid crystal layer, and a backlight unit that outputs light toward the liquid crystal layer; an illuminance sensor provided at one side of the display and that measures illuminance; and a processor that configured to determine output brightness of the display based on a difference between illuminance measured by the illuminance sensor when the backlight unit is turned on and illuminance measured by the illuminance sensor when the backlight unit is turned off, and control intensity of light output from the backlight unit to be adjusted corresponding to the difference.
US10810947B2
An electro-optical device is provided with a plurality of data lines, a plurality of potential lines supplied with a predetermined potential, a driving transistor controlling a current level according to the voltage between the gate and the source, a first storage capacitor which holds the voltage between the gate and a source of the driving transistor, and a light-emitting element. One data line among the plurality of data lines and one potential line among the plurality of potential lines are arranged to be adjacent to each other, and a second storage capacitor holding the potential of the one data line is formed by the one data line and the one potential line.
US10810946B2
The present disclosure provides a gate clock generator including a counter, a buffer control signal generator, and an output unit. The counter receives control data having rising timing information and falling timing information and a main clock. The counter generates a first output when a value is obtained by counting the main clock from a preset reference time point reaches rising data. The counter further generates a second output when a value is obtained by counting the main clock from the reference time point reaches falling data. The buffer control signal generator generates a first buffer control signal of a gate ON voltage from a timing of the first output to a timing of the second output. The output unit outputs a gate ON voltage of a gate clock during an output period of the gate ON voltage of the first buffer control signal.
US10810944B2
An array substrate, a display panel and a display device are provided. The array substrate has a display area including display transistors and gate lines, and a non-display area surrounding the display area and including a gate driving circuit electrically connected to the gate lines. A display transistor includes a display active layer comprising amorphous silicon. The gate driving circuit includes stages of shift registers. A shift register includes a plurality of shift register transistors, a gate signal output terminal, and at least one bootstrap point. The shift register transistors in the shift register include at least one gate output transistor, and the at least one gate output transistor includes a gate electrode electrically connected to the at least one bootstrap point, a first electrode electrically connected to the gate signal output terminal, and a gate output active layer comprising polysilicon.
US10810938B2
An organic light emitting display device which secures a sufficient compensation time during which a threshold voltage of a driving transistor is compensated by driving a display panel using a simultaneous emission driving method by which a plurality of pixels simultaneously emit light. The organic light emitting display device may reduce a length (or, a time) of a non-emission period by storing a data signal of a current frame into a second capacitor of the pixel in an emission period of a previous frame and by adjusting a voltage at a gate electrode of a driving transistor of the pixel based on a voltage stored in the second capacitor in a data writing period of the current frame.
US10810936B2
A pixel circuit and a drive method thereof and a display panel are provided. The pixel circuit includes a light-emitting element, a light-emitting control circuit and a photoelectric sense circuit. The light-emitting control circuit is configured to drive the light-emitting element to emit light and includes a first end, a second end and a third end; the first end is connected with a first power supply terminal, and the second end is connected with one end of the light-emitting element. Other end of the light-emitting element is connected with a second power supply terminal. The photoelectric sense circuit is configured to sense light incident thereon and includes a sense signal output end and a sense voltage input end, the sense voltage input end is connected with the second power supply terminal, and the sense signal output end is connected with the third end of the light-emitting control circuit.
US10810925B2
Embodiments of the present disclosure provide a pixel unit, a display substrate, and a method for manufacturing the display substrate. The pixel unit includes: a first sub-pixel region; a second sub-pixel region located at a periphery of the first sub-pixel region and surrounding the first sub-pixel region; and a third sub-pixel region located at a periphery of the second sub-pixel region and surrounding the second sub-pixel region.
US10810923B2
A GOA circuit is provided, the GOA circuit being a cascaded multiple-stages GOA circuit, each stage GOA circuit comprising a pull-up control unit, a pull-up unit, a signal downward transfer unit, a pull-down unit, one pull-down maintenance unit and a bootstrap unit, each stage GOA circuit being disposed with a clock signal input terminal, a first node, a first voltage input terminal, a pull-down signal input terminal and a scan signal output terminal to output a scan signal onto a horizontal scan line, the one pull-down maintenance unit comprising an inverter, the first node being disposed between an output terminal of the pull-up control unit and the bootstrap unit, when a potential of the first node is a high potential, a potential of a pull-down signal input to the pull-down signal input terminal is a low potential.
US10810911B2
Light leakage from integrally molding a decorative sheet and a connector insert is prevented. A molded article includes a display portion through which light can pass. A molded article body of the molded article includes a second molded portion made of a light-transmitting resin transmitting light guided to the display portion and a first molded portion made of an opaque resin having lower light transmittance than the second molded portion. A decorative sheet is integrally molded with the molded article body and includes a decorative portion that embellishes the display portion. A light-transmitting touch sensor sheet is integrally molded with the molded article body and transmits light that passes through the display portion. The molded article body includes a shade structure that is at least partly disposed around an outer peripheral edge of the decorative sheet and suppresses light passing through the light-transmitting resin.
US10810908B2
Embodiments provided herein include a resettable injection training device having a body, a plunger slidable relative thereto, an injection simulation member and retractable and extendable shield, wherein the shield releasably locks in a retracted position prior to use. After use of the training device, the shield extends over the injection simulation member to prevent contact with the injection simulation member. Resetting of the slidable shield occurs by applying a force onto a distal end of the shield to retract the shield until a shield locking surface interacts with a locking surface on the body to maintain the shield in a retracted position. Release of the shield from a retracted position to an extended position may occur by moving the plunger toward a distal end of the body until a contact region at a proximal end of the plunger releases the shield locking surface from the body locking surface to release the shield.
US10810903B2
A computerized method of detecting and depicting a travel path of a golf ball hit from a hitting station in a plurality of hitting stations at a driving range. The computerized method utilizes a plurality of sensors to detect shot launch parameters from a first field of detection, shot trajectory parameters from a second field of detection, and/or ground path parameters from a third field of detection. Because the sensors may detect similar parameters from the overlapping fields of detection, the computerized method determines which parameters should be utilized to calculate and depict the travel path of the golf ball on a display.
US10810896B2
A method (100) is implemented by a computing device for helping a particular user use a user interface (UI). Electroencephalography (EEG) data is obtained (102) that indicates brain activity of a particular user during a period in which that user views the UI and/or interprets help information that describes how to use the UI. Based on the EEG data, the computing device selects (104), from among multiple predefined cognitive states, the one or more cognitive states that characterize the particular user during the period. The computing device assists (106) the particular user to use the UI by customizing the help information for the particular user based on the one or more selected cognitive states. A complementary computing device and computer program product are also disclosed.
US10810895B2
Method, systems, and media for participating in and conducting a learning session of a collaborative network. Various embodiments of methods, systems, and media for participating in a learning session of a collaborative network are presented. User image data is received. The user image data is converted into expressive avatar information comprising an avatar identifier and an avatar emotion identifier. The expressive avatar information is transmitted. Altered instructional content is received, wherein the altered instructional content is an alteration of the instructional content and the alteration is based on a plurality of avatar identifiers and a plurality of avatar emotion identifiers, wherein the plurality of avatar identifiers comprises at least the avatar identifier, and wherein the plurality of avatar emotion identifiers comprises at least the avatar emotion identifier. User image data may be converted into expressive avatar data using facial expression recognition techniques.
US10810894B2
An aircraft defining an upright orientation and an inverted orientation, a ground station; and a control system for remotely controlling the flight of the aircraft. The ground station has an auto-land function that causes the aircraft to invert, stall, and controllably land in the inverted orientation to protect a payload and a rudder extending down from the aircraft. In the upright orientation, the ground station depicts the view from a first aircraft camera. When switching to the inverted orientation: (1) the ground station depicts the view from a second aircraft camera, (2) the aircraft switches the colors of red and green wing lights, extends the ailerons to act as inverted flaps, and (3) the control system adapts a ground station controller for the inverted orientation. The aircraft landing gear is an expanded polypropylene pad located above the wing when the aircraft is in the upright orientation.
US10810878B2
A vehicle control system includes a lane line recognizer that recognizes lane lines of a road on which a vehicle is traveling, a virtual line setter that sets, when there is a section in which the lane lines are not recognizable by the lane line recognizer after passing through a gate installed on the road, a virtual line with a terminating end portion of a lane line extending from the gate or an object present near the gate as one end and a beginning end portion of the lane line in a future travel area of the vehicle which is present ahead of the section in which the lane lines are not recognizable as another end, and an automated driving controller that performs automated driving in the section in which the lane lines are not recognizable on the basis of the virtual line set by the virtual line setter.
US10810866B2
A system for object detection within a monitored zone around a vehicle includes: at least one processor; and memory encoding instructions which, when executed by the processor, cause the system to: detect an object; and suppress an alert associated with detection of the object when a size of the detected object is below a lower size threshold value or above an upper size threshold value.
US10810851B2
An active interface monitoring and warning system for fall arresting/prevention devices delivering specific fault condition messages to individuals who are subject to accidental falls or other safety hazards when performing construction or the like or when operating elevating construction machinery such as aerial lift work platforms and the like. The invention further provides a data logging system to record and transmit operational conditions, fault conditions and safety infractions.
US10810836B2
A system and method for controlling an electronic gaming machine (“EGM”) from a mobile device during a remote access play session. The EGM is switched between a local access mode in which the inputs on the EGM are active and a remote access mode in which the inputs on the EGM are de-activated and a player interfaces the EGM using a mobile device such as a smartphone or a tablet computer. During remote access play sessions, all critical game play operations continue to be performed exclusively on the EGM and not on the mobile device. Critical game play operations include random number generation and determination of game outcome. Game content, including video, screenshot images and audio of the game is transmitted to the mobile device for display to the player. Player input and selections are made on the mobile device.
US10810826B2
A system for supporting a plurality of display monitors includes a support stanchion having a first anchor end, a second coupling end, and a stanchion body extending therebetween. The system also includes at least one counter-balanced hinging mechanism coupled to the second coupling end of the support stanchion and at least one monitor frame. The counter-balanced hinging mechanism includes at least one arm linkage assembly configured to permit the at least one monitor frame to pivot with respect to the support stanchion, and at least one bias member coupled to the at least one arm linkage assembly. The at least one bias member is configured to apply a variable amount of force to maintain the at least one monitor frame stationary in any of a plurality of intermediate positions between an approximately vertical operational position and an approximately horizontal maintenance position.
US10810821B2
The present disclosure relates to the field of vending machine technology. In particular, it involves a control system and control method implementing data processing under multidrop bus (MDB) protocol.
US10810814B2
A delivery system includes: a first vehicle configured to deliver a delivery object to a predetermined delivery destination; a second vehicle configured to deliver the delivery object to the first vehicle; and an authentication information issuing device configured to perform at least one of first issuance control and second issuance control. The first issuance control is control of issuing first authentication information to a second user terminal. The first authentication information is information for locking and unlocking the predetermined area of the first vehicle. The second issuance control is control of issuing second authentication information to a first user terminal. The second authentication information is information for locking and unlocking the predetermined area of the second vehicle.
US10810812B2
Systems, apparatuses, and methods are provided herein for securing merchandise. In one embodiment an apparatus for securing merchandise comprises a locking mechanism limiting access to one or more items, one or more optical sensors configured to detect a plurality of wavelengths and an intensity associated with each wavelength from at least one light beam emitted by an optical key, and a control device comprising a control circuit and a memory device. The control device being configured to store a lock code comprising a plurality of wavelength values and a plurality of intensity values each associated with a wavelength value on the memory device and determine whether to release the locking mechanism based on whether intensities of each of the plurality of wavelengths detected by the one or more optical sensors match the lock code.
US10810806B2
A system and method that includes collecting vehicle sensor data, wherein prioritizing vehicle sensor data includes identifying a level of importance for each of a plurality of vehicle sensor data types included in the vehicle sensor data; generating a vehicle sensor data schedule, wherein generating the vehicle data schedule includes one or more of (i) identifying a transmission order for each of the plurality of vehicle sensor data types and (ii) identifying a storage scheme selected from a hierarchy of data storage types for each of the plurality of vehicle sensor data types; transforming vehicle sensor data into message data, wherein the transforming includes selectively converting one or more of the vehicle sensor data types of the vehicle sensor data to a messaging format based on the prioritization; and transmitting, via one or more selected communication networks, the message data according to the vehicle sensor data schedule.
US10810802B2
In order to aid a user in filling a container with a target volume of a substance, an image is received. The image includes a view of the container and a view of a reference object. The reference object has a known dimension. The view of the reference object and the view of the container are then compared with reference to the known dimension. Based on the comparison, a volume of the container is determined. Based on the volume of the container, a volume indicator is provided.
US10810794B2
The present disclosure relates to a method of applying a sublayer in which a layer is applied on the basis of a sewing line as a unit and an apparatus thereof in making 3D clothing by computer simulation. A partial region within a pattern is designated by selecting a sewing line through a user interface, and a sublayer in which a layer is set on the basis of the sewing line is set.
US10810792B2
A method for inferring a location of a three-dimensional (3D) object, the method includes receiving sensor data from a plurality of sensors of an autonomous vehicle. The method also includes mapping features extracted from the sensor data to a first data structure corresponding to a feature space of a 3D representation of a spatial area. The method further includes classifying the merged features to identify an object within a vicinity of the autonomous vehicle and projecting a 3D representation of the identified object to a location of the 3D feature space. The method still further includes controlling an action of the autonomous vehicle based on the projected 3D representation.
US10810785B2
In a ray tracer, to prevent any long-running query from hanging the graphics processing unit, a traversal coprocessor provides a preemption mechanism that will allow rays to stop processing or time out early. The example non-limiting implementations described herein provide such a preemption mechanism, including a forward progress guarantee, and additional programmable timeout options that can be time or cycle based. Those programmable options provide a means for quality of service timing guarantees for applications such as virtual reality (VR) that have strict timing requirements.
US10810783B2
Described herein are methods and systems for dynamic real-time texture alignment for three-dimensional (3D) models. A computing device receives input images of objects in a scene, and generates a 3D model for at least one of the objects, comprising a plurality of mesh triangles. The computing device projects each mesh triangle of the 3D model to one of the input images. The computing device measures a texture discontinuity between adjacent mesh triangles of the projected image by comparing color differences in a shared edge of the adjacent mesh triangles. The computing device translates a texture associated with the adjacent mesh triangles in different directions to create texture candidates. The computing device applies the texture candidates to the corresponding mesh triangles until a seamless texture join is formed on the shared edge. The computing device generates a textured 3D model using the 3D model, the projected image, and the texture candidates.
US10810782B1
A semantic texture map system to generate a semantic texture map based on a 3D model that comprises a plurality of vertices that include coordinate that indicate positions of the plurality of vertices, a UV map, and a semantic segmentation image that comprises a set of semantic labels.
US10810779B2
Exemplary embodiments relate to the application of media effects such as facial mask overlays, to visual data (such as a video or photo). Publicly-available images may be found and mapped to a mask. In the mapping process, a user may type in the name of a celebrity or public figure, and a system may perform a public image search. In some embodiments, candidate images may be filtered in order to remove images unsuitable for use in masks. Typically, only a single forward-facing image is required for mapping. However, multiple images may be used to provide different angles and allow the user to turn their head while the mask is applied. Mask generation may involve: extracting facial features from the image; mapping the facial features to the user's video; blending/recoloring of either or both of the image or the person's face; and applying the mask in real-time/on the fly.
US10810775B2
This application relates generally to computer-implemented methods and systems for computer graphics processing. Specifically, the application involves automatically selecting and blending images based on image aesthetic scores. Computer systems are provided that may blend an automatically selected foreground image with an automatically selected background image to produce an editable photo creation.
US10810769B2
Techniques of generating curves in drawing applications involve generating rational interpolating curves in response input points being specified on a display such that the rational interpolating curves have an adjustable sharpness at each of the input points. Along these lines, a user specifies control points of a curve in a drawing application by, e.g., moving these control points on a display. In response, a computer running the drawing application generates a rational interpolating curve that intersects the input points such that the curvature of each curve at its input point is a local maximum and such that the user's sharpness values change the roundness of the curve around corresponding control points.
US10810760B2
A cargo-carrying apparatus is provided. The cargo-carrying apparatus includes: an upper deck and a vibration-isolation section. The upper deck is configured to carry cargo. The vibration-isolation section is disposed beneath the upper deck. The vibration-isolation section includes an elastic vibration-isolation layer and one or more indicator components, and the one or more indicator components are disposed on one or more side surfaces of the elastic vibration-isolation layer, and height of the one or more indicator components varies depending on thickness of the elastic vibration-isolation layer. It is determined whether the elastic vibration-isolation layer of the cargo-carrying apparatus is invalid according to a compression ratio of the elastic vibration-isolation layer obtained from an indicator-component image of one of the one or more indicator components.
US10810758B2
A method of directing positioning of ECG electrodes on a patient includes receiving at a processor an image of a patient from a camera of an augmented reality device. The processor analyzes the image for anatomical landmarks on the patient and generates an overlay image. The overlay image is shown over the real time image of the patient on the augmented reality device. The overlay image includes visual indicators of the desired electrode placement. The method further includes determining whether the actual location of each of the electrodes is correct and provides information on the augmented reality device as to whether the electrodes and lead placement is correct. An image of the electrode placement is stored with the ECG measurements, which can be used to verify correct electrode placement and to confirm consistent electrode placement over serial measurements. The augmented reality device allows for gesture control by the clinician.
US10810753B2
Disclosed is a technique for 3D reconstruction through a combination of time-of-flight (ToF) and stereoscopy. Use of a single modulation frequency in ToF computation provides a set of ambiguous distances. To determine a single accurate distance out of this candidate set, a stereoscopic comparison of an image pair provides a disambiguating distance. The stereoscopic comparison uses a stored virtual image of at least part of the emitted light, and the detected image of light reflected from an object. The stereoscopic distance is used to determine which of the multiple accurate distances is correct based on proximity. The closest of the multiple distances to the disambiguating distance is taken as the actual distance.
US10810752B2
A system includes a neural network implemented by one or more computers, in which the neural network includes an image depth prediction neural network and a camera motion estimation neural network. The neural network is configured to receive a sequence of images. The neural network is configured to process each image in the sequence of images using the image depth prediction neural network to generate, for each image, a respective depth output that characterizes a depth of the image, and to process a subset of images in the sequence of images using the camera motion estimation neural network to generate a camera motion output that characterizes the motion of a camera between the images in the subset. The image depth prediction neural network and the camera motion estimation neural network have been jointly trained using an unsupervised learning technique.
US10810751B2
An apparatus includes: an image capture sensor configured to perform imaging by employing a rolling shutter method; a stand configured to move the image capture sensor; a processor; and a memory. A first still image is obtained by using the image capture sensor while the image capture sensor is moved by the stand at a first constant speed. A second still image is obtained by using the image capture sensor while the image capture sensor is moved by the stand at a second constant speed or is remained stationary. Inclination information, which indicates an inclination difference between an image of an object in the first still image and an image of the object in the second still image, is specified. Distance information, which indicates a distance, is generated by using the specified inclination information.
US10810748B2
The present disclosure provides a multiple targets-tracking method and apparatus, a device and a storage medium, wherein the method comprises: obtaining a to-be-processed current image, inputting the current image into a convolutional neural network model obtained by pre-training, and obtaining a target detection result; respectively extracting feature vectors of each detected target from a pre-selected convolutional layer; respectively calculating a similarity between the feature vectors of each target in the current image and feature vectors of each target of previous images, completing association of the same target between different image frames according to calculation results, and allocating a tracking serial number. The solution of the present disclosure may be applied to meet requirements for real-time processing.
US10810741B2
A dynamic analysis system includes a hardware processor and an output device. The hardware processor obtains a cycle of temporal change in a feature amount relevant to a function to be diagnosed from each of dynamic images obtained by imaging of a dynamic state of a living body with radiation. The hardware processor further adjusts the obtained cycle, thereby generating a plurality of cycle-adjusted data having cycles of the temporal change in the feature amount being equal to one another. The hardware processor further generates difference information at each phase in the plurality of cycle-adjusted data. The output device outputs the difference information.
US10810724B2
An automatic separating and identifying system of insects on leaves that includes an insects separation system, an insects dispersing system, and an insects identification system. The insects separation system includes a circulating container and water circulation mechanism. The dispersing system includes an examination mesh that is designed to receive the water with the insects. The identification system includes a camera, lighting means, a computer with a database and algorithm, and is designed to identify types and amounts of the insects on the examination mesh.
US10810712B2
In an apparatus for monitoring surroundings of a vehicle based on a plurality of images captured by a plurality of imagers through a windshield of the vehicle, an image acquirer is configured to acquire the plurality of images captured by the plurality of imagers, and a distortion corrector is configured to correct the plurality of images based on an optical distortion distribution of the windshield.
US10810705B2
A video dehazing method includes: capturing a hazy image including multiple inputted pixels by an image capture module, calculating an atmospheric light value according to the inputted pixels by an atmospheric light estimation unit, determining a sky image area according to the inputted pixels via the intermediate calculation results of a guided filter by a sky detection unit; calculating a dark channel image according to the inputted pixels based on dark channel prior (DCP) by a dark channel prior unit; calculating a fine transmission image according to the inputted pixels, the atmospheric light value, the sky image area and the dark channel image via a guided filter by a transmission estimation unit, generating a dehazing image according to the inputted pixels, the atmospheric light value and the fine transmission image by an image dehazing unit, and outputting the dehazing image by a video outputting module.
US10810699B2
Working efficiency in position matching of multiple point cloud data displayed on a display is improved. A point cloud data processing device includes a highlight controlling part. In a condition in which a first point cloud containing multiple markers for position matching and a second point cloud containing multiple markers for position matching are displayed on a display, when a marker of one of the first point cloud and the second point cloud is specified, the highlight controlling part highlights a corresponding marker of the other point cloud.
US10810692B1
A comprehensive computer system and method (See FIGS. 1, 1a, 2) for automating and facilitating the performing and processing of tasks, information transfer, and information storage associated with the home sale (See FIG. 3a), mortgage origination (See FIG. 3b), and settlement process (See FIG. 3c), and the home mortgage refinancing origination and settlement process (See FIGS. 1b, 1c, 2a), over a distributed computing network are disclosed. One aspect of the invention is a greatly simplified process for a home buyer to search for a home and simultaneously receive accurate and competitive bids for mortgages and services from multiple lenders and service providers. The process includes an automated underwriting process which generates complete, accurate information on the costs of buying and owning a home at very beginning of the home buying process. Another aspect of the invention is greatly automating the entire sale, loan and settlement process.
US10810690B2
A system of modules which control and measure energy usage at a building that are in communication with a software program executing on a remote server controlled by a third party. The third party said usage via the software program that communicates with the modules to modify energy usage and demand for energy and is responsible or liable for energy usage charges the building where the third party does not actually use the energy.
US10810687B2
A system for managing and tracking plant management at a site is provided. The system includes a device management server and a plant management device communicatively connected to the device management server via a network. The plant management device is configured to: receive a plant management task order including task instructions for performing a plant management task and automatically perform the plant management task according to the task instructions; send a task receipt notification to the device management server, the task receipt notification including task beneficiary data; and transmit task performance data to the device management server, the task performance data logged during performance of the plant management task. The device management server is configured to: generate a work report for the plant management device from the task performance data; generate a billing report for the plant management device from the task beneficiary data and billing rate data, the billing report including a billable amount; and generate a productivity profile for the plant management device.
US10810657B2
The present invention facilitates secure display and sale of copyright protected images, by showing alternate reciprocal images, with complementary obstructed/degraded and clearly visible areas. System components include server machines and/or computer terminals with a screen or other display mechanism. The system may be connected through a communications network or it may be self-contained on a stand-alone, specialized computer system. System components further include non-transitory computer-readable media containing a database of images. The system creates and displays alternate reciprocal images showing blockades covering faces, patterns or objects of interest in a first image and showing the same faces, patterns or objects shown as clearly visible with all surroundings having degraded resolution or blur. Users are provided an opportunity to purchase the image and a clean copy of the image is delivered to the user upon completion of a purchase transaction.
US10810644B2
A system for mitigating returns is disclosed. In particular, the system may analyze an order made by a user for an item. The system may apply one or more filters to the order to determine if the ordered item is compatible with the user's profile, devices, accounts, preferences, or a combination thereof. Based on the application of the filters, the system may determine if a conflict exists between the ordered item and the user's profile, devices, accounts, preferences. If a conflict is determined to exist, the system may notify the user and adjust the order to generate a new order for a different item that is compatible for the user so as to mitigate a return. An order may then be transmitted to a virtual assistant for approval, which may reject the order or approve the order for completion.
US10810638B2
In an aspect of the disclosure, a method, a computer-readable medium, and a network based platform. A platform entity of the network based platform receives, from a first group entity managing a group of vehicles, data of projected payments that are to be generated based on transportation activities of the group of vehicles. The platform entity determines an amount of convertible preferred shares of a business entity to be issued to the group of vehicles based on the projected payments. Further, another platform entity of the network based platform receives, from a first group entity managing a group of housing units, data of projected payments that are to be generated based on household activities of the group of housing units. The platform entity determines an amount of convertible preferred shares of a business entity to be issued to the group of housing units based on the projected payments.
US10810637B2
A computer-implemented method, computer program product, and computing system for receiving a social platform inquiry from a client; executing the social platform inquiry on a social platform pool to generate a result set; and providing the result set to the client.
US10810636B1
The queue wait time estimation system of the present disclosure leverages its users' Internet-connected mobile devices—and the data they generate based on sensor feedback—to estimate the queue wait times at various establishments. The queue wait time estimation system communicates the estimated queue wait times to the users to enable the users to make an informed decision as to whether they'd like to visit a particular establishment based on its estimated queue wait time.
US10810635B2
In an example system, specific information indicating a specific display element (character string or the like) and link destination information about a page for advertisement or purchase/sale are stored so as to be associated with each other. Upon request for a webpage, a specific display element is detected among display elements to be displayed on the page, and if such a specific display element is detected, browse source data for displaying the webpage in which the detected display element is hyperlinked so as to allow jumping to an advertisement page is generated and transmitted.
US10810631B2
System architecture and methods for facilitating multiple parallel requests of advertising inventory
System architecture and methods for enabling a client-side real-time auction of advertising inventory that works in conjunction with ad serving technologies. The method according to some embodiments of the present invention comprise: (i) an end-user visiting a web page wherein multiple advertisements are displayed, (ii) for each ad unit on the page, multiple parallel requests are sent from the end-user's browser client to multiple real-time bidders who respond with a bid & advertisement for each unit, (iii) the bids are compared within the end-user's browser and the winning bid is sent to an ad serving system to be compared with other statically priced advertisements and exchange demand to determine the winning advertisements that will be displayed to the end-user and (iv) data is aggregated for each bid and price limits are set based on the aggregations.
US10810621B2
A vehicle includes a controller programmed to, responsive to detecting a barcode displayed outside the vehicle via an exterior sensor, decode the barcode, and project an image representing an information decoded from the barcode on a windshield of the vehicle, the image overlaying the barcode from a perspective of a user.
US10810618B2
A process is disclosed for obtaining selected item data from a media processor, wherein the selected item data indicates an item used by an actor in a video data stream. The video data stream includes data representing the item used by the actor and icon data including multiple icons associated with a number of mobile devices. Selected icon data is obtained from the media processor, indicating a selected one of the number of mobile devices. Advertising data for the selected item is provided to the selected one of the number of mobile devices via a communication network. The advertising data is sent when the selected one of the number of mobile devices comes in proximity with a merchant having the selected item in stock. A system is disclosed for performing the process. A machine-readable device is also disclosed for use by the system and process.
US10810615B2
A method is performed by a computing device. A request is sent comprising request data, the request data comprising one or more identifiers. Payload data is received, where the payload data includes advertising creative retrieval data and application retrieval data for downloading one or more application installation files for an application, where the advertising creative is associated with the application. The advertising creative is downloaded. If the application is not installed on the computing device, the one or more application installation files are downloaded. An advertising creative display opportunity is generated. The advertising creative is displayed in the advertising creative display opportunity. If a user interaction with the advertising creative is detected and the application is not installed on the computing device, the application is installed from the downloaded one or more application files.
US10810614B2
A wireless charger system for inductively charging a rechargeable battery of an implantable pulse generator (IPG) implanted in a human body is provided. A charging coil in the charger is wirelessly coupled to a receiving coil of the IPG to charge the rechargeable battery. An end-of-charge (EOC) circuit continuously monitors the reflected impedance from a reflected impedance sensor and determines the end of charge when a predetermined pattern of the reflected impedance corresponding to an EOC signal from the IPG is received. Advantageously, receiving the EOC signal through the charging coil eliminates the need to provide a separate communication circuit in the IPG that communicates with the charger.
US10810611B2
A system and associated method for encouraging individual employees of a business, or members of a team, to practice proper washroom activities is provided. The employees or team members are enrolled a washroom rewards program, and certain washroom facilities are designated as available to the individuals for use in the rewards program. The washroom facilities are configured with an identification (ID) system that automatically identifies enrolled employees or team members that enter the facility. Point values are assigned in the washroom rewards program for defined washroom activities performed by the individuals in the designated washroom facilities, and upon performance of such activities, the individual is identified via the ID system and a personal account assigned to the individual is automatically credited with the point value. The points are redeemable by the individuals for an award value.
US10810610B2
Technologies for providing consumer loyalty to merchants are provided. Payment transactions are monitored based on communications received from point of sale systems of merchants. Based on loyalty-based rules for the merchant, the purchase transaction can be modified to provide a stored benefit to the consumer. Tracking loyalty-based activity based on payment transactions can reduce the necessity for consumer involvement or registration with a merchant's loyalty program while increasing a merchant's ability to provide the consumer in meaningful marketing engagements.
US10810608B2
A method, system and computer program product for determining API pricing. Consumption parameters are identified using a supervised learning model. The API consumption parameters refer to any parameters that can be used to describe an API (functionality or otherwise) and can be used to compare other comparable APIs in similar domains provided by other providers. Furthermore, reference pricing is determined using machine learning using the identified API consumption parameters. Additionally, the API price is determined dynamically using the identified API consumption parameters and the determined reference pricing. An API pricing score is then derived for the API price using the supervised learning model. The API price is selected as the suggested price for the API in response to the API pricing score exceeding a threshold value. In this manner, an API price is established that reflects the true value of the API assessed by the API consumer.
US10810606B2
Provided herein are systems, methods and computer readable media for receiving consumer search data, aggregating by consumer and location, and utilizing the aggregated consumer search data in demand forecasting and relevance determination. An example method may include receiving consumer search data, the consumer search data indicative of search performed by a consumer, the consumer search data comprising one or more search terms and at least one of a consumer location or consumer identification information, storing the consumer search data for a predetermined time interval, and providing at least one of consumer aggregated search data to a relevance module for determining which of a plurality of promotions to present to a consumer at a second time or providing location aggregated search data to a demand forecasting module for utilization in forecasting promotion demand in a particular location.
US10810597B2
The methods and systems described herein provide for processing payments via a mobile device at a retail location while relying solely on non-PCI Scope information at the retail location. A payment processing transaction may be initiated at a point of sale at a retail location, and a unique identifier provided by a mobile device may be used as payment information to facilitate the processing of a payment transaction. Authorizations of payment processing transactions are made by a remotely located server based, at least in part, on the unique identifier provided by the mobile device.
US10810587B2
After sending a request to a payment module, via a first communication capability (e.g., BLE), to initiate a transaction with a payment accepting unit associated with the payment module, a mobile device with one or more processors, memory, one or output devices, and two or more communication capabilities obtains a notification from the payment module via the first communication capability. The notification indicates an event at the payment accepting unit associated with the payment module. In response to obtaining the notification, mobile device provides a representation of the notification to a user of the mobile device via the one or more output devices of the mobile device. For example, a message is displayed on a display of the mobile device, a vibration alert is produced by a vibration mechanism of the mobile device, an aural alert is produced by a speaker of the mobile device, and/or the like.
US10810577B2
Provided are check-in to checkout systems and methods. The system includes a point of sale, a display, a mobile device, and a backend system. When the POS starts a transaction, such as, but not limited to scanning an item, the POS generates a transaction/basket identification. In response to starting the transaction, the POS sends the transaction/basket ID to the display in the form of a QR code or one-dimensional barcode. The mobile device operating a mobile application scans and captures the displayed code and reports to the backend systems. The backend systems then send a check-in event, which includes gathered data by the backend systems, to the POS and the POS acknowledges receipt of the message. At this point, a notification may be sent to the mobile application that the check-in was successful and a link is established for flow of information.
US10810575B2
A text message order processing system includes: means for receiving text messages from consumers purchasing products from one or more merchants, each of the text messages being addressed to an address selected by the consumer and including an identification of the product being purchased and an identification of a device from which the text message was sent; means for parsing each text messages to extract the identification of the product and the identification of the device from the text massage; means for selecting based upon each received text message a payment instrument to be used to pay for the purchase; means for establishing payment information related to the selected payment instrument and delivery information indicating where the purchased product is to be delivered; means for generating for each received text message an order including the established payment information, delivery information and identification of the product being purchased; and, means for submitting the generated order to an order management system of the merchant.
US10810567B2
Techniques for related to retail transaction are disclosed. The techniques involve various uses of a mobile device, such as a cell phone, in authorizing payment for a retail transaction and/or receiving and/or transmitting data to/from the mobile device.
US10810563B1
Technologies are described herein for a payments portal. A payments portal can be configured to support payments by generating and embedding widgets in webpages hosted by merchant sites associated with a marketplace. The widgets can provide specific payment functionality for users, thereby providing consistent payment experiences across merchant sites without updating the merchant sites. The widgets can be dynamic or static. Interactions with the widgets can cause a browser displaying the widgets to access data hosted by the payments portal and/or other systems, devices or services in communication with the payments portal.
US10810562B1
Disclosed herein are system, method, and computer program product embodiments for completing the transaction at another ATM upon determining that an ATM where a transaction being performed is unable to complete the transaction. Upon detection of an error condition at the ATM, a current status of the transaction being performed at the ATM and the error condition may be analyzed to determine an option to complete the transaction. Upon determination that the transaction can be completed at the other ATM, a notification may be sent to the customer. In response to the notification, information identifying the transaction may be received from the other ATM, and a session identifying the transaction may be sent to the other ATM, thereby allowing the transaction to complete at the other ATM.
US10810561B1
An image of a check may be presented for payment in a banking system in place of the physical paper check. The check to be deposited can be collected from a depositor using a scanner. A web site, accessed through a depositor's web browser, can be used to drive the process of collecting the check, but in some contexts (e.g., in less popular computing environments, such as those that do not run the most popular operating systems), it is economically infeasible to obtain the certificates that would be used to allow a program executing in the web browser to control the scanner. Thus, a depositor can be instructed to capture and upload images of the check in the form of files, where the image files are then presented for payment through a banking system.
US10810557B2
A financial services ecosystem for providing a collaborative worldwide payment system includes: a computer-based system configured to credit a merchant, by way of a merchant bank, for goods sold or services rendered to a consumer; and a payment process platform configured to receive data from a user application. The payment process platform is configured to generate a disposable bank identification number (BIN). The disposable BIN is converted from a BIN issued by a financial institution or credit card company. The disposable BIN is used by a biller as an authorization BIN to document that the consumer has paid a bill.
US10810554B2
Methods and apparatus are provided that are related to generating repair orders, including vehicular repair orders. A computing device can receive repair-related information associated with a repair order. The repair-related information can include information about a first repair attribute of one or more repair attributes. The computing device can determine a first ontology related to the first repair attribute. The first ontology can be further related to a first template. The computing device can determine modified repair-related information by at least utilizing the first template to modify at least a first portion of the repair-related information that includes the information about the first repair attribute. The computing device can generate an output related to the repair order that includes the modified repair-related information.
US10810551B2
In a project management support system, a ratio calculation unit calculates, as an “FL rate of project management”, a ratio of the number of measures recorded in a risk measure to-do list to a sum of the number of problems recorded in a problem management table and the number of measures recorded in the risk measure to-do list. An achievement level calculation unit calculates a level of goal achievement for the “FL rate of project management” from a calculation result by the ratio calculation unit and a target value of the “FL rate of project management”. A display control unit sets a display mode of the calculation result by the ratio calculation unit in accordance with the level of goal achievement calculated by the achievement level calculation unit and performs control to display the calculation result on a display in the display mode being set.
US10810542B2
A system for fulfillment & optimization. The system includes an optimization engine that executes scenario simulations, wherein the scenario simulations generate pick information. The optimization engine selects a best scenario from at least two scenarios based on the scenario information. In response to the selection of the best scenario, the optimization engine configures a computing system to execute a zoning policy, a routing policy, and a base algorithm policy associated with the best scenario. The computing system executes the zoning policy, the routing policy, and the base algorithm policy to fulfill orders.
US10810534B2
In some embodiments, apparatuses and methods are provided herein useful to the sortation of products using a conveyor assembly. In some embodiments, there is provided a system for receiving and sorting products shipped to a shopping facility including: a delivery location at a shopping facility configured to receive a shipment of products; a conveyor assembly comprising: a product identification module configured to read identification data from an identification label disposed on a product; a plurality of sortation modules configured to move the product to one of a predetermined plurality of sortation destination areas; a control circuit operatively coupled to the product identification module and to each of the sortation modules, the control circuit configured to: receive the identification data from the product identification module; determine the sortation destination area for the product based at least on one of shopping facility data and shipping data regarding the product as sortation criteria; and cooperate with the plurality of sortation modules to move the product to the determined sortation destination area.
US10810533B2
In one embodiment a plurality of transportation requests received from a plurality of subscribers to the transportation service are accessed, wherein a group of a plurality of drivers of the transportation receive one or more of the plurality of transportation requests. At least one performance score over a time period is generated for each driver of the group of drivers of the transportation service based at least in part on the transportation requests. A distribution of a compensation pool associated with the time period among the drivers of the group is determined according to the at least one performance score.
US10810531B2
This disclosure relates generally to vehicle diagnostics, and more particularly to systems and methods for vehicle tracking and service prediction. In one embodiment, a processor-implemented vehicle tracking and prediction method is disclosed. The method includes sending an electronic signal to activate in-vehicle data collection by an on-board data aggregator disposed in communication with each of an on-board vehicle computer, via an on-board diagnostic port, and one or more user devices. The method further includes receiving, aggregated in-vehicle data from the on-board data aggregator, predicting a future vehicle service event based on the aggregated data, and generating a vehicle valuation metric based on the aggregated data. The method further includes sending a notification to at least one of the on-board vehicle computer and the one or more user devices, where the notification is based on the predicted future vehicle service event and the generated vehicle valuation metric.
US10810530B2
A workflow management system for managing the storage, retrieval, and transport of items in a warehouse includes a voice-directed mobile terminal. The system also includes a server computer in communication with the voice-directed mobile terminal. The server computer includes a tasking module for transmitting task data to the voice-directed mobile terminal. The server computer also includes a workflow-analysis module for generating, based at least in part upon an analysis of workflow dialog between the voice-directed mobile terminal and the user, performance data relating to the performance of tasks associated with the storage, retrieval, and/or transport of the items.
US10810528B1
Various embodiments are directed to techniques for organizing fulfillment of enterprise products, such as by using a request manager informed by enterprise resources and resource utilization to recommend a facility to fulfill a product request. Some embodiments are directed to identifying a product request and determining the equipment and skills necessary to fulfill the product request. Based on this information and location data, embodiments may determine a set of facilities as candidates to fulfill the request. A machine learning model may be used to analyze current resource utilization of the facilities and predict facility availability and estimated completion times for the request fulfillment. A candidate facility may be recommended for fulfillment of a request based on facility availability and estimated completion times. In some embodiments, historical resource utilization may be used to inform further staffing and equipment service decisions.
US10810526B2
An event wizard server includes at least one processor that executes the event wizard server application that bidirectionally communicates event planning data with a user of a client device via a network interface. The event planning data includes: event type menu data, and event type selection data, wherein at least one event type includes a sequential task-oriented event.
US10810507B2
Systems, computer-implemented methods, and computer program products to facilitate external port measurement of qubit port responses are provided. According to an embodiment, a system can comprise a memory that stores computer executable components and a processor that executes the computer executable components stored in the memory. The computer executable components can comprise an analysis component that can analyze responses of a multi-mode readout device coupled to a qubit. The computer executable components can further comprise an assignment component that can assign a readout state of the qubit based on the responses. In some embodiments, the multi-mode readout device can be electrically coupled to at least one of the qubit or an environment of the qubit based on a defined electrical coupling value.
US10810502B2
Data is received that characterizes a software system. Thereafter, using at least one machine learning model trained using historical testing data from a plurality of training software systems, a recommended computing architecture is generated for the software system. Data can then be provided that characterizes the software system. Related apparatus, systems, techniques and articles are also described.
US10810500B2
A method and apparatus for determining an Energy Conservation Measure (ECM) for building retrofit. An analysis apparatus receives a condition for building retrofit, and selects detailed measures of one or more Energy Conservation Measures (ECMs) for a building based on the condition. The analysis apparatus selects a maximum of one detailed measure from among multiple detailed measures of each of the one or more ECMs. The analysis apparatus provides one or more ECM determination schemes, which include an energy savings-based ECM determination scheme and a cost-based ECM determination scheme.
US10810499B2
The present invention provides an information recommendation method and apparatus in a social media. An off-line procedure includes: determining a point of interest of a target user; selecting information related to the point of interest as an annotated corpus; and training an interest classification model of the target user by using the annotated corpus as a training sample. An on-line procedure includes: inputting to-be-recommended information to the interest classification model of the target user, so as to determine whether the to-be-recommended information tallies with an interest of the target user; and if the to-be-recommended information tallies with the interest of the target user, recommending the to-be-recommended information to the target user. According to the present invention, an effect of information recommendation in a social media can be improved.
US10810491B1
A visualization tool for machine learning models obtains metadata from a first training node at which a multi-layer machine learning model is being trained. The metadata includes a parameter of an internal layer of the model. The tool determines a plurality of metrics from the metadata, including respective loss function values corresponding to several training iterations of the model. The tool indicates the loss function values and the internal layer parameter values via a graphical interface.
US10810479B2
An identification device to be adhered to the skin of an animal having a top side and a bottom side comprising: a substrate with a printable surface with biocompatible pigment displaying visually discernible information disposed on the top side of the substrate; biocompatible adhesive on bottom side of substrate; an electronic component below the top side of the substrate comprising an electronic device with the ability to send, receive, and store information; and a carrier sheet, wherein the substrate and the adhesive are flexible, elastic, biocompatible, breathable, and comprised of material allowing for transmission of moisture and vapor at a rate that allows the device stay affixed to the skin for its pre-determined useful timeframe to slow down deterioration of components below substrate and to minimize skin irritation.
US10810472B2
Techniques are provided for performing sentiment analysis on words in a first data set. An example embodiment includes generating a word embedding model including a first plurality of features. A value indicating sentiment for the words in the first data set can be determined using a convolutional neural network (CNN). A second plurality of features are generated based on bigrams identified in the data set. The bigrams can be generated using a co-occurrence graph. The model is updated to include the second plurality of features, and sentiment analysis can be performed on a second data set using the updated model.
US10810464B2
An information processing apparatus includes a storing unit that stores a neural network that recognizes a data characteristic of data, and a correction unit that corrects the data by using the neural network stored in the storing unit such that the neural network recognizes that the data characteristic of the data is a predetermined data characteristic.
US10810461B2
Learned model providing system has a configuration including consent acquisition device that acquires use consent that an acquired image of visitor is to be used for generating a learned model from visitor, a plurality of cameras that image visitor, learned model generating device that generates the learned model by machine learning based on a captured image imaged by camera, server device that saves the learned model generated by learned model generating device, user side device that receives the learned model from server device, camera, and member database.
US10810459B2
An information processing apparatus includes a generating unit configured to generate a reference image based on an image of a first object, an image of a second object, and processing information on processes including a process of inserting a second object into the first object. The first object has at least one window portion through which the inserted second object is at least partially visible, a verifying unit configured to verify a captured image with the generated reference image, the captured image being obtained by capturing the first object into which the second object has been inserted, and an outputting unit configured to output a result of the verification.
US10810452B2
Methods, apparatuses and systems directed to pattern identification and pattern recognition. In some particular implementations, the invention provides a flexible pattern recognition platform including pattern recognition engines that can be dynamically adjusted to implement specific pattern recognition configurations for individual pattern recognition applications. In some implementations, the present invention also provides for a partition configuration where knowledge elements can be grouped and pattern recognition operations can be individually configured and arranged to allow for multi-level pattern recognition schemes.
US10810451B2
Provided, in an aspect, is a method for improving security in an automated teller machine (ATM) network, which includes prompting a user, via the ATM, to provide a biometric sample; receiving the sample from a biometric device of the ATM; determining that the sample is not blacklisted; and allowing the user to complete a transaction. Because the method includes storing anonymized event details, which include the biometric sample separate from user-identifying information, the method both improves privacy for law-abiding users and deters malicious use by others.
US10810441B2
A method and system for identifying hierarchical structures of members of a crowd (126). One method (400) includes determining a movement of at least one of a plurality of members of the crowd (126) based on image data from a camera (120). The method (400) includes determining a first probability that a first member of the plurality of members is leading other members based on the movement. The method (400) includes determining a second probability that the first member is leading the other members based on a relationship between the first member and the other members determined based on social media information. The method (400) includes determining a combined probability that the first member is leading the other members based on the first probability and the second probability. The method (400) includes transmitting a message indicating a leadership association between the first member and the other members.
US10810433B2
A method and system is provided for tracking one or more objects in a video which is computationally light so that it can run on a variety of computing devices, including mobile devices which typically have a limited computational power. The tracked objects can be selected, and can then be automatically tracked afterwards. The tracked objects can be deselected or have their bounding boxes moved or resized at any time. The tracking can be performed using online learning with a binary classifier to separate the target from the background.
US10810432B2
Methods and systems for differentiating an object in a video. One system includes an electronic computing device including an electronic processor configured to determine context information associated with a video. The electronic processor is further configured to determine an object included in the video to be differentiated from other objects included in the video. The electronic processor is further configured to determine a level of differentiation for the object based on the context information. The electronic processor is further configured to alter the video to create an altered video that shows the object differentiated from the other objects in accordance with the level of differentiation. The electronic processor is further configured to provide the altered video to a display.
US10810425B2
A flight vehicle and a tracking method are disclosed. The method includes: collecting the flight vehicle's geographic location information and image data of the areas over which the flight vehicle flies; establishing a correspondence between the geographic location information and the image data collected at a same moment; and sending the foregoing data between which the correspondence is established. A receive end receives the geographic location information and the image data between which the correspondence is established; draws a flight path of the flight vehicle by using the geographic location information; obtains geographic location information corresponding to a location selected on the flight path, and displays image data corresponding to the geographic location information. Therefore i's convenient to obtain a geographic location corresponding to each frame of video image, which provides a basis for tracking the trajectory of the flight vehicle, and monitoring the flight status of the flight vehicle.
US10810424B2
Disclosed is a virtual driving lane generation method and apparatus for recognizing vehicles near a host vehicle, extracting feature information indicating a directionality of the nearby vehicles, generating a virtual auxiliary driving lane based on the feature information, and generating a virtual driving lane for the host vehicle based on the virtual auxiliary driving lane and the side line information.
US10810415B1
Various implementations disclosed herein include devices, systems, and methods for low bandwidth transmission of event data. In various implementations, a device includes one or more cameras, a non-transitory memory, and one or more processors coupled with the one or more cameras and the non-transitory memory. In various implementations, the method includes obtaining, by the device, a set of images that correspond to a scene with a person. In various implementations, the method includes generating pose information for the person based on the set of images. In some implementations, the pose information indicates respective positions of body portions of the person. In some implementations, the method includes transmitting the pose information in accordance with a bandwidth utilization criterion.
US10810413B2
A wakeup method based on lip reading is provided, the wakeup method including: acquiring a motion graph of a user's lips; determining whether the acquired motion graph matches a preset motion graph; and waking up a voice interaction function in response to the acquired motion graph matching the preset motion graph.
US10810411B2
A performing device of a gesture recognition system for reducing a false alarm rate executes a performing procedure of a gesture recognition method for reducing the false alarm rate. The gesture recognition system includes two neural networks. A first recognition neural network is used to classify a gesture event, and a first noise neural network is used to determine whether the sensing signal is the noise. Since the first noise neural network can determine whether the sensing signal is the noise, the gesture event may not be executed when the sensing signal is the noise. Therefore, the false alarm rate may be reduced.
US10810410B2
An information providing device and an information providing method capable of providing information according to a driving load while alleviating or eliminating a sense of discomfort of a user of a vehicle is provided. An information providing device includes an emotion determination unit that determines virtual emotion of a vehicle, and an output control unit that determines one or both of content and an output mode of the information that the output unit is caused to output according to the virtual emotion of the vehicle. The emotion determination unit determines predetermined emotion to be the virtual emotion of the vehicle when a condition that a period in which the traveling state of the vehicle detected by the traveling state detection unit is a predetermined traveling state has continued for a predetermined period or longer is satisfied.
US10810402B2
A fingerprint identification apparatus, a method for fabricating a cover and a terminal device are provided. A plurality of optical channels are arranged in the body of the cover, such that the light reflected by an object to be identified is as much as possible linearly transmitted to the photosensitive region in the image identification chip and the intensity of the light received by the image identification chip is maximized. This is favorable to form a clear image, and thus the precision of fingerprint identification of the fingerprint identification apparatus is improved. In addition, in the fingerprint identification apparatus, under the condition of satisfying the signal penetration rate, the cover may be as thick as possible, to further enhance the strength and reliability of the cover.
US10810396B2
A fingerprint identification apparatus and an electronic device having the fingerprint identification apparatus. The fingerprint identification apparatus includes: a first substrate; a second substrate disposed opposite to the first substrate; and a fingerprint identification sensor disposed between the first substrate and the second substrate, where the fingerprint identification sensor comprises a plurality of photoelectric induction units, and each of the photoelectric induction units comprises a curved photoelectric induction part.
US10810390B2
The invention is based on a configuration change at a monitored device being detected by a first computer unit of a monitored device. Furthermore, a first data record is determined by means of the first computer unit of the monitored device, wherein the first data record comprises at least one item of public device information and an item of configuration information, and wherein the item of public device information is assignable one-to-one to the monitored device. Furthermore, an item of visual information based on the first data record is determined by means of the first computer unit of the monitored device. Furthermore, the item of visual information is transmitted optically from an output unit of the monitored device to an input unit of a mobile monitoring unit. Furthermore, a second data record is determined from the item of visual information by means of a second computer unit of the mobile monitoring unit, wherein from the second data record, at least the item of public device information and the item of configuration information are determinable. Furthermore, the second data record is transmitted from an interface of the mobile monitoring unit to a central data acquisition unit. Hereby the monitored device can be, in particular, a medical device, in particular, an imaging device, in particular, a mobile ultrasonic device or a mobile C-arm X-ray device.
US10810389B2
A method of dynamically configuring a data capture device includes: at a data capture controller, responsive to enabling a configuration mode, controlling a data capture assembly of the data capture device to initiate a data capture operation to capture a barcode; at the data capture controller, determining a symbology of the captured barcode based on a master set of symbology definitions; at the data capture controller, updating an active subset of the master set of symbology definitions to include the determined symbology; at the data capture controller, responsive to disabling the configuration mode, decoding subsequently captured barcodes based only on the active subset of symbology definitions.
US10810383B2
An image processing apparatus includes a control unit. The control unit acts as a searcher, a translator, a comparator, and an outputter. The searcher searches a first file and a second file, each including a text that is different in language from each other. The translator generates a translated text of the second file, by translating the text in the second file into a same language as a language of the text in the first file. The comparator compares between the text in the first file and the translated text generated from the second file, and detects a difference between the text of the first file and the text of the second file, through the comparison. The outputter outputs the difference detected by the comparator.
US10810379B2
A statistics-based machine translation method is disclosed. The method generates probabilities of translation from a sentence to be translated to candidate translated texts based on features of the candidate translated texts that affect the probabilities of translation and a pre-generated translation probability prediction model. The features that affect probabilities of translation include at least degrees of semantic similarity between the sentence to be translated and the candidate translated texts. A preset number of candidate translated texts with highly ranked probabilities of translation are selected to serve as translated texts of the sentence to be translated. The method is able to go deep into a semantic level of a natural language when a machine translation model is constructed to avoid a semantic deviation of a translated text from an original text, thereby achieving the effect of improving the quality of translation.
US10810378B2
A method for decoding a natural language user query involves obtaining the user query submitted by a user, segmenting the user query into words, generating a character embedding for each of the words, and generating a word embedding for each of the words. The method further involves obtaining a clickstream from tracked clicks of the user, generating a clickstream embedding from the clickstream, and for each of the words, generating a unified feature representation based on the character embedding and the word embedding for each of the words, and the clickstream embedding. The method also involves decoding the unified feature representations to obtain a decoded user query, and processing the user query using the decoded user query.
US10810369B2
A piece of text is saved for security verification on a computing device. One or more pieces of related text corresponding to the piece of saved text are generated, where each text element of the one or more pieces of related text is generated based on its proximity to the corresponding text element of the piece of saved text on one or more keyboards on the computing device. A piece of input text is received for information verification. A piece of input text is compared with the piece of saved text and the one or more pieces of related text. A determination is made that the piece of input text matches one of the one or more pieces of related text and input guidance for re-entering a piece of text for security authentication is provided.
US10810360B2
A server, method and apparatus for providing collaboration services are provided. The server includes a memory configured to store computer executable instructions, and a processor configured to process the computer executable instructions to provide a screen including a first area displaying a video of a user and a second area displaying an editable document. The processor is further configured to process the computer executable instructions to receive a selection of a point in time of the video, and provide the editable document in a state corresponding to the selected point in time of the video.
US10810356B2
Embodiments of the present invention provide methods, systems, apparatuses, and computer program products for aiding user access to technical data for an item. In one embodiment a method is provided comprising providing a model of the item, wherein the model comprises a plurality of visual representations, each visual representation representing one or more components of the item; receiving input selecting at least one of the one or more visual representations; responsive to receiving input selecting the at least one of the one or more visual representations, identifying one or more topics associated with the selected visual representation; providing at least a portion of the one or more topics associated with the selected visual representation; receiving input selecting at least one of the one or more topics; and responsive to receiving input selecting a topic of the one or more topics, providing technical data associated with the topic.
US10810351B2
A computing device includes a memory, a display for displaying a representation of data stored in the memory, and a surface for detecting user input. In response to detecting an indication of a command, the computing device is configured to identify the command, and automatically identify one or more variables, associated with at least one function, representing a plurality of at least one location in the memory, based on at least one portion of the command. The at least one function is configured to automatically determine one of the plurality of at least one location at which to apply the command to at least one text character or graphic object, based on the one or more variables.
US10810345B2
A computer-implemented method modifies a manufacturing process for integrated circuits that include memory chips and a memory buffer. One or more processors identify a performance trending estimate of memory chip failures versus memory buffer failures in failed integrated circuits. The processor(s) identify a location and address of each memory chip in the identified failed integrated circuits that has a memory chip failure. The processor(s) identify a wafer location on a wafer die on which each memory buffer that has a memory buffer failure was formed. The processor(s) predict a fault analysis (FA) pareto based on the performance trending estimate, the location and address of each memory chip in the failed integrated circuits, and the wafer location on the wafer die on which each memory buffer that has the memory buffer failure was formed such that a manufacturing process for the integrated circuits is modified based on the FA pareto.
US10810344B1
A method of time budgeting an integrated circuit (IC) including acquiring a graph data structure and clock cycle requirements, where the graph data structure includes at least two identical blocks of a plurality of blocks that correspond to an identical design module. The method acquires internal and external delay values ports of each design module, and sets parameters, which include the internal and external delay values of the at least two identical blocks as equivalent for the identical blocks. The method performs optimization of the parameters of the ports of all of the blocks, and determines whether the optimized parameters of each of the ports satisfy predetermined requirements of the IC. The method outputs a final design of the IC design based on results of the optimization for manufacturing of the IC based on the final design.
US10810343B2
A language disclosed herein includes a loop construct that maps to a circuit implementation. The circuit implementation may be used to design or program a synchronous digital circuit. The circuit implementation includes a hardware pipeline that implements a body of a loop and a condition associated with the loop. The circuit implementation also includes the hardware first-in-first-out (FIFO) queues that marshal threads (i.e. collections of local variables) into, around, and out of the hardware pipeline. A pipeline policy circuit limits a number of threads allowed within the hardware pipeline to a capacity of the hardware FIFO queues.
US10810332B2
A method is provided for simulating communication between a client system and application entity via an application interface, thereby enabling integration testing with a simulation apparatus. Data is transmitted from the simulation apparatus to the application entity via the application interface, and the simulation apparatus records outputs along with contexts and respective latencies. The client system transmits requests to the simulation apparatus which returns simulated responses based on the stored outputs having similar contexts, and with artificial latencies replicating the previously recorded latencies. Other events generated in the application entity may also be recorded and simulated accordingly. Reporting and analytical data may be provided to identify potential performance issues and other errors prior to direct integration of the client system and application interface.
US10810324B2
Aspects of the subject disclosure may include, for example, embodiments for providing anonymization. The anonymization can be provided such as to implement, for example, privacy as a service. The anonymization can be directed to emails, web activity (e.g., searching, viewing), browser history, telephone calls and/or physical mail. Mechanisms can be provided via which publication (e.g., online publication; publication in the form of information or data (such as marketing data)) of certain likes/dislikes that a person has can be controlled (e.g., certain likes/dislikes can be prohibited from being made public; certain likes/dislikes can be prohibited from being sold as marketing data; certain likes/dislikes can be allowed to be made public; certain likes/dislikes can be allowed to be sold as marketing data). Other embodiments are disclosed.
US10810310B2
Aspects of the disclosed technology provide a method including receiving one or more signals emanated from a monitored device; signal processing, based on a software model and a hardware-software (HW/SW) interaction model of the monitored device, the one or more signals to determine if an anomaly exists in the one or more signals; and responsive to determining, based on the signal processing, that an anomaly exists, transmitting an indication of the anomaly.
US10810309B2
Methods and systems provide for detecting exploitation of kernel vulnerabilities which typically corrupt memory. The methods and systems are implemented, for example, via a host, which includes a hypervisor, which controls the operating system (OS) user space and the OS kernel space.
US10810307B2
A wireless lockset with integrated anti-hacking methods is described herein. The integrated anti-hacking methods in the wireless lockset allows the detection of unauthorized access by one or more individuals. The integrated anti-hacking methods can detect an anomaly regarding wireless command sequence numbers, timing of received commands or flooding attack, and/or unauthorized access based on the MAC address of a command-issuing device. Upon detection of a hacking attempt, the wireless lockset performs one or more actions.
US10810299B2
Methods, systems, and products authenticate users for access to devices, applications, and services. Skills of a user are learned over time, such that an electronic model of random subject matter may be generated. The user is prompted to interpret the random subject matter, such as with an electronic drawing. The user's interpretation is then compared to the electronic model of the random subject matter. If the user's interpretation matches the electronic model, the user may be authenticated.
US10810296B2
A communication apparatus of the disclosure includes: an authentication section that performs personal authentication of a user through BAN (Body Area Network) communication prior to data exchange with a communication peer for predetermined processing; and a communication section that performs the data exchange with the communication peer for the predetermined processing in a case of success of the personal authentication.
US10810294B2
A display device includes a plurality of pixels, a plurality of gate signal lines extending in a first direction and connected to the plurality of pixels, and a plurality of data signal lines extending in a second direction and connected to the plurality of pixels. The second direction crosses the first direction. The display device further includes a fingerprint sensor configured to detect fingerprint information, and a driver integrated circuit (IC) configured to transmit a plurality of scan signals to the pixels via the gate signal lines, transmit a plurality of data signals to the pixels via the data signal lines, receive the fingerprint information from the fingerprint sensor, and encrypt the received fingerprint information. The display device further includes an application processor configured to receive the encrypted fingerprint information from the driver IC.
US10810293B2
Improved user authentication of a communication device is provided by expanding voice biometric authentication with a dynamically updated user profile formed of non-voice usage parameters. The non-voice usage parameters are collected during successful voice authentications to establish non-voice compensation controls. When a failed voice biometric authentication attempt is followed by a valid PIN entry, then a false rejection is determined, and a voice biometric threshold is adjusted to reduce the individual user-based false rejection rate along with the enablement of the non-voice usage controls.
US10810292B2
An electronic device is provided. The electronic device includes a memory storing first authenticated fingerprint information, and a processor configured to obtain first fingerprint information corresponding to a first input, compare the first fingerprint information with the first authenticated fingerprint information during a first user authentication, perform a designated function when the first authenticated fingerprint information belongs to a first reference, temporarily store the first fingerprint information when the first authenticated fingerprint information belongs to a second reference, obtain second fingerprint information corresponding to a second input during a second user authentication, compare the second fingerprint information with the first authenticated fingerprint information during the second user authentication when the second input satisfies a designated reference in relation to the first input, store the temporarily stored first fingerprint information as second authenticated fingerprint information when the second authenticated fingerprint information belongs to the first reference, and perform the designated function.
US10810291B2
Embodiments of the disclosure include methods, apparatus and computer programs for detecting the proximity of an ear to an audio device. In one embodiment, the disclosure provides a system for detecting the presence of an ear in proximity to an audio device. The system comprises: an input for obtaining a data signal from the environment of the audio device; and an ear biometric authentication module configured to: compare one or more ear biometric features, extracted from the data signal, to an ear biometric template; and generate a first output indicative of the presence or absence of any ear in proximity to the audio device based on the comparison of the one or more extracted ear biometric features to the ear biometric template.
US10810287B2
A method and apparatus for unlocking a terminal screen are provided. A specific embodiment of the method includes: determining a current screen state of the terminal being a state of awaiting unlocking; acquiring illumination information of an environment of the terminal in a predetermined period of time, the illumination information comprising an illumination intensity and a duration of the illumination intensity; judging whether the illumination information meets a predetermined condition; and switching the current screen state of the terminal to a successfully unlocked state in response to determining that the illumination information meets the predetermined condition. The embodiment achieves high-precision unlocking of a terminal screen without the need of manual operations on the terminal screen.
US10810284B2
A computer-based system and method is provided to allow for virtual access and control of a surgical console. The present invention may provide for the replication of the graphical user interface (GUI) associated with a piece of operating room equipment and the provisioning of the replicated GUI to an internet accessible platform that may act as an access point for a plurality of users.
US10810281B2
An outer product multiplier (GPM) system/method that integrates compute gating and input/output circular column rotation functions to balance time spent in compute and data transfer operations while limiting overall dynamic power dissipation is disclosed. Matrix compute gating (MCG) based on a computation decision matrix (CDM) limits the number of computations required on a per cycle basis to reduce overall matrix compute cycle power dissipation. A circular column rotation vector (CRV) automates input/output data formatting to reduce the number of data transfer operations required to achieve a given matrix computation result. Matrix function operators (MFO) utilizing these features are disclosed and include: matrix-matrix multiplication; matrix-matrix and vector-vector point-wise multiplication, addition, and assignment; matrix-vector multiplication; vector-vector inner product; matrix transpose; matrix row permute; and vector-column permute.
US10810277B1
Systems, methods, and non-transitory computer-readable media can determine a multi-part identifier captured using one or more cameras associated with the computing device, the multi-part identifier including at least a first portion that references a site, a second portion that references an entity, and information describing one or more actions. A digital destination associated with the multi-part identifier can be determined based at least in part on the first portion and the second portion of the multi-part identifier. One or more actions to be performed in relation to the digital destination can be determined based at least in part on the information included with the multi-part identifier.
US10810276B2
A mediating method by a mediating device comprises receiving a first list including at least one item from a first terminal and receiving at least one list from at least one terminal different from the first terminal, searching for a list including an item corresponding to at least one item among the at least one item of the first list, among the received at least one list, and transmitting information on the corresponded item, according to a result of the search, to each of the first terminal and a terminal which provides the list including the item corresponding to the at least one item among the at least one terminal.
US10810272B2
The present disclosure provides a method and an apparatus for broadcasting a search result based on artificial intelligence. The method includes: receiving a query sentence inputted by a user, and acquiring a plurality of candidate search results according to the query sentence; analyzing each candidate search result to determine a category of each candidate search result, in which the category includes a structured result and a rich-text result; acquiring intention information of the query sentence, and screening the plurality of candidate search results according to the intention information and the category of each candidate search result to obtain a screened search result; and generating text information corresponding to the screened search result, and broadcasting the text information.
US10810269B2
The present disclosure discloses a second-degree friend query method. The method includes storing a first-degree friend of each account, querying for the first-degree friend after receiving a second-degree friend query command, and query the first-degree friend to obtain a second-degree friend. A storage module stores the first-degree friend relationships. The second-degree friend is obtained through a query according to the first-degree friend in real time. The present disclosure further discloses a second-degree friend query apparatus and system corresponding to the foregoing method and a storage medium. The system includes a processing server and a storage server. The storage server stores a first-degree friend for each account, and queries for and returns the first-degree friend at the request of the processing server. The processing server controls an entire query procedure, and obtains a second-degree friend after twice queries. Further, because the processing server can manage multiple storage servers, obtaining a friend relationship chain of multiple types in one query command is supported.
US10810237B2
Methods and computer program products for generating a search query are provided. A method includes receiving a first string of characters inputted into a text input field of a graphical user interface, wherein the first string of characters represents a first portion of the search query. One or more query suggestions based on the first string of characters are displayed within the graphical user interface. The method further includes receiving a selected first query suggestion and displaying it in a first query segment within the text input field. A second string of characters inputted into the text input field of the graphical user interface may also be received. One or more second query suggestions based on the second string of characters may be displayed. A selected second query suggestion may be received from the one or more second query suggestions and then displayed in a second query segment.
US10810235B1
Systems are provided for using a hierarchy of geographical areas to efficiently identify regions of interest. The hierarchy of geographical areas may be generated or defined using geocoding. Various regions of interest (e.g., delivery areas, governmental jurisdictions, etc.) may be defined as compositions of the hierarchical geocoded areas. Individual regions may include larger areas corresponding to higher levels of the hierarchy and smaller areas corresponding lower levels of the hierarchy, as needed. Thus, the question “which regions include a specific location” can be answered by determining which hierarchical geocoded areas include the specific location, and which regions include those geocoded hierarchical areas.
US10810234B2
Methods, systems, and computer program products are provided for processing a request regarding relationships among instances of entities. A graphical representation of instances of entities is generated and includes one or more source nodes, each representing an instance of an input entity of a request, and one or more related nodes, each representing an instance of a second entity related to one or more corresponding instances of the input entity and associated with a corresponding confidence score for the relationship. Each of the one or more related nodes associated with a confidence score satisfying a threshold is identified. One or more supplemental nodes are added to the graphical representation, each of which represents a corresponding instance of a third entity with a relationship to a corresponding instance of the second entity. The graphical representation is traversed to identify relationships between instances of entities and produce results for the request.
US10810233B2
A method for linking records from different datasets based on record similarities is described. The method includes ingesting a first dataset, including a first set of records with a first set of fields, wherein the first dataset is associated with a first vendor and a first type of data, and a second dataset, including a second set of records with a second set of fields, wherein the second dataset is associated with a second vendor and a second type of data; determining that a first record from the first set of records is similar to a second record from the second set of records based on similarities between fields in the first and second set of fields; and linking the first and second records in response to determining that the similarity, wherein the first and second vendors are different and/or the first and second types of data are different.
US10810217B2
In one embodiment, a method includes receiving a search query and parsing the search query to identify one or more terms to optionalize, searching one or more data stores to identify a plurality of objects, including a second set of objects associated with the online social network that matches one or more of the search terms and does not match at least one of the optionalized terms, scoring each of the identified objects, where for each object of the second set of objects the score calculated by the scoring algorithm is based on one or more fuzzy matching terms of the object corresponding to one or more optionalized terms of the search query, respectively, and sending a search-results page to the client system of the first user.
US10810209B2
Aspects of the present disclosure aim to improve upon systems for managing long database transactions, and the way in which changes made to a database from within a workspace view during a long transaction are committed to the underlying parent database. The present disclosure aims to solve problems caused by the need to refresh a workspace view as part of the process of resolving conflicts between competing workspace views operating on the same portions of the database. Aspects described herein solve the problem through the creation of a separate data structure which effectively logs all of the further transactions which commit changes to parent database. The data structure can be arranged to include all changes committed after a first transaction is opened and worked upon. The process of committing the changes made in the first transaction to the workspace includes performing a recursive search using the data structure.
US10810204B2
Access to attachments of electronic messages and information associated with the electronic messages to applications external to a messaging application is provided. A message including an attachment is received via a messaging application, and a relationship connecting the message to the attachment is stored in a graph database. When a request is made to display a file list, an API is used to interact with the graph database. Attachments that meet a criterion associated with the file list and associated metadata are included in the list. Responsive to a selection to open an attachment, a productivity application communicates with the messaging application to retrieve the attachment and associated messages, and displays the attachment in a content display region and associated messages and messaging application functionalities in a communications pane in a single productivity application user interface.
US10810194B2
Disclosed is a method performed by a network node (300) in a communication network for correlating information of a first network domain (310) with information of a second network domain (320), the second network domain being different from the first network domain. The method comprises receiving (102) event information of a first event that occurred in the first network domain and receiving (104) event information of a second event that occurred in the second network domain, wherein the event information of the first event and the event information of the second event each comprises a user ID, UID; a time stamp, and a geographical information. The method further comprises comparing (106) the event information of the first event with the event information of the second event in order to find a correlation between the event information of the first event and the event information of the second event, the correlation indicating a possible association between the UID of the first event and the UID of the second event.
US10810190B2
Various embodiments of systems and methods for detecting database blocking are described herein. The method includes detecting a non-responding state of an application. Once the non-responding state is detected, a request is sent to a database to retrieve blocking information related to the application. The blocking information is received from the database. The blocking information indicates whether the non-responding state of the application is due to database blocking or other issues. When the non-responding state is detected due to the database blocking, the blocking information also indicates whether the application is a victim or the application is a root blocker. When the application is the victim, one or more IDs and contact information related to the root blocker is provided to resolve database blocking, e.g., by discussion. When the application is the root blocker, IDs and contact information related to one or more victims of the application is provided.
US10810183B1
Systems and methods for synchronizing database operations with a distributed blockchain are disclosed. The database operations are performed on a database that is shared between multiple users including a first user. Exemplary implementations may: receive database information reflecting one or more database operations performed by the first user on a first version of the database; verify whether the one or more database operations are allowed to be performed by the first user; record on the distributed blockchain, responsive to the verification being affirmative, a message that describes or refers to a description of one or more modifications to the database; effectuate transmissions of notifications to the first version of the database; subsequent to the transmissions, propagate or revert the one or more database operations, based on the verification result.
US10810179B2
A distributed graph database that enables scaling and efficient processing is described. The distributed graph database can, for example, scale up to petabytes of data to enable transactional processing of graph data with low latency and low processing overhead. The distributed graph database can include a cluster of devices and a remote direct memory access (RDMA)-based communication layer to perform low latency messaging between devices of the cluster of devices. Additionally, the distributed graph database can include a shared memory layer that provides one or more data structures, a transaction layer to facilitate query processing, and a graph database layer stored in computer-readable media and executed on a processor to implement a graph data model. In at least one example, the graph data model can be mapped to the one or more data structures.
US10810154B2
A distributed storage system including memory hosts and at least one curator in communication with the memory hosts. Each memory host has memory, and the curator manages striping of data across the memory hosts. In response to a memory access request by a client in communication with the memory hosts and the curator, the curator provides the client a file descriptor mapping data stripes and data stripe replications of a file on the memory hosts for remote direct memory access of the file on the memory hosts.
US10810140B2
An information processing system includes a first device and a second device that is configured to perform a short-range wireless communication with the first device. In a case where the first device requests an external authentication apparatus for authentication, the first device sends information regarding the second device to the external authentication apparatus.
US10810126B2
The present disclosure is concerned with improvements to cache systems that can be used to improve the performance (e.g. hit performance) and/or bandwidth within a memory hierarchy. For instance, a data processing apparatus is provided that comprises a cache. Access circuitry receives one or more requests for data and when the data is present in the cache the data is returned. Retrieval circuitry retrieves the data and stores the data in the cache, either proactively or in response to the one or more requests for the data. Control circuitry evicts the data from the cache and, in dependence on at least one condition, stores the data in the further cache. The at least one condition comprises a requirement that the data was stored into the cache proactively and that a number of the one or more requests is above a threshold value.
US10810125B2
A prefetch controller is configured to communicate with a prefetch cache in order to increase system performance. The prefetch controller includes an instruction lookup table (ILT) configured to receive a first tuple including a first instruction ID and a first missed data address. The prefetch controller further includes a tuple history queue (THQ) configured to receive an instruction/stride tuple, the instruction/stride tuple generated by subtracting a last data access address from the first missed data address. The prefetch controller further includes a sequence prediction table (SPT) in communication with the tuple history queue (THQ) and the instruction lookup table. The prefetch controller includes an adder in communication with the instruction lookup table (ILT) and the sequence prediction table (SPT) configured to generate a predicted prefetch address and to provide the predicted prefetch address to a prefetch cache.
US10810120B2
An encoder of a flash memory controller is provided, which includes a barrel shifter module, an inverse matrix calculating circuit and a calculating circuit. The barrel shifter module processes multiple data blocks to generate multiple partial parity blocks including a first portion, a second portion and a third portion. The inverse matrix calculating circuit performs inverse matrix calculating operations on the first portion to generate a first portion of parity blocks. The calculating circuit performs inverse matrix calculating operations on the second portion and the third portion according to the first portion of the parity blocks, to generate a second portion of the parity blocks and a third portion of the parity blocks. The first portion of the parity blocks, the second portion of the parity blocks, and the third portion of the parity blocks serve as multiple parity blocks generated in response to encoding the data blocks.
US10810119B2
A process for wear-leveling in a memory subsystem where references to invalidated chunks and a write count for each of the invalidated chunks of a memory subsystem are received by a wear-leveling manager. The wear-leveling manager orders the received references to the invalidated chunks of the memory subsystem in a tracking structure based on the write count of each of the invalidated chunks, and provides a reference to at least one of the invalidated chunks based on the ordering from the tracking structure to a write scheduler to service a write request, wherein the memory subsystem is wear-leveled by biasing the order of the invalidated chunks to prioritize low write count chunks.
US10810112B2
Techniques are provided for automated resiliency testing. In one example, a computer-implemented method comprises analyzing, by a system operatively coupled to a processor, an annotated state transition graph of a user interface of a microservices-based application, wherein the annotated state transition graph has edges annotated with application program interface call subgraphs. The computer-implemented method also comprises generating, by the system, an ordered list of the application program interface call subgraphs based on the analyzing.
US10810110B1
Various aspects described herein relate to a method and system for testing software products or services using a behavior-driven development domain specific language (DSL) framework. The framework identifies one or more input payloads for testing a software product or service that comprises a Web service, wherein the software product or service operates on one or more application servers and normalizes data or information, at the test framework, in at least the one or more input payloads into normalized data or information. The framework recursively tests one or more components of the software product or service and generates results of testing the one or more components of the software product or service.
US10810101B2
A system for and a method of testing the performance of a database management system. The system and method utilize a data table generator, a query generator, and a query driver system that are configured to generate test data, generate a series of test queries, and execute the queries against the data in a controlled and measurable manner such that the performance of the database management system can be tested in a configurable, repeatable, and consistent manner to measure the impact of system software and configuration changes.
US10810091B2
A data recovery method in a distributed storage system including a NameNode, a plurality of first storage nodes and a plurality of second storage nodes, where each of the first storage nodes includes a data processing apparatus communicatively coupled to the NameNode. The data processing apparatus receives a file block obtaining request carrying an identifier of a target file, determines that a target file block is lost according to the identifier of the target file, obtains, from the NameNode, an identifier of a target storage node on which a recovery dependence data block is located, and obtains the recovery dependence data block according to the identifier of the target storage node and the identifier of the target file to recover the target file block.
US10810090B2
Disclosed is a method, apparatus, and system for performing proxy-based partition backup in a virtualized environment, the operations comprising: mounting a backup source virtual machine disk to a backup proxy; obtaining, at the backup proxy, partition information for a backup source partition on the backup source virtual machine disk; and reading, by the backup proxy, partition data of the backup source partition based on the partition information and backing up the partition data to a data store.
US10810086B2
A method includes emulating an Enhanced Application Module Redundancy (EAM-R) system that includes a primary EAM-R board and a secondary EAM-R board. Emulating the EAM-R system includes detecting that data received from a sensor has been written to a memory block associated with the primary EAM-R board, and sending instructions to a secondary computing device to write a copy of the data to a same memory block in the secondary computing device that is associated with the secondary EAM-R board. The EAM-R system is emulated in an emulation system that includes at least one network connection. The emulation system does not include a physical primary EAM-R board or a physical secondary EAM-R board.
US10810083B1
A system and method for offset protection data in a RAID array. A computer system comprises client computers and data storage arrays coupled to one another via a network. A data storage array utilizes solid-state drives and Flash memory cells for data storage. A storage controller within a data storage array is configured to store user data in a first page of a first storage device of the plurality of storage devices; generate intra-device protection data corresponding to the user data, and store the intra-device protection data at a first offset within the first page. The controller is further configured to generate inter-device protection data corresponding to the first page, and store the inter-device protection data at a second offset within a second page in a second storage device of the plurality of storage devices, wherein the first offset is different from the second offset.
US10810081B1
A distributed system is adapted to manage the performance of distributed processes. In one aspect, multiple stripes associated with a data item are stored in a distributed storage. The stored stripes include one or more stripes of redundancy information for the data item. A distributed process including at least one task is performed. During performance of the distributed process, a determination is made as to whether to perform an accelerated data retrieval operation. Responsive to a determination to perform an accelerated data retrieval operation, at least one of the one or more stripes of redundancy information for the data item is requested from the distributed storage. Other stripes associated with the data item may also be requested from the distributed storage. After a sufficient subset of stripes associated with the data item is received, the data item is reconstructed using the subset.
US10810080B2
A memory system includes an error correction code (“ECC”) generation circuit using write data to generate an ECC to be stored together with the write data; a memory device, during a write operation, storing received data and a received ECC in a memory core, and, during a read operation, checking for an error in data read from the memory core, correcting the error in read data using the ECC and outputting error-corrected data and the ECC, when the error in the read data is between one bit and N bits inclusive, and outputting the read data and the ECC when no error is present in the read data or the error in the read data exceeds N bits; and an error correction circuit correcting, when an error is present in data outputted from the memory device, the error in the data outputted using an ECC outputted from the memory device.
US10810075B2
One example method includes identifying, in a computing system, an aggregate data set that includes both data used by a first user and data used by a second user, examining file metadata associated with the data in the aggregate data set and, based on the examination of the file metadata, determining whether or not any data in the aggregate data set is shared by the first and second users. When a determination is made that some data in the data set is shared by the first and second users, the method includes further determining how much of the data is shared, assigning a strength of connection between the first user and the second user based on the extent to which the first user and second user share data and, based on the strength of connection, taking an action to improve operation and/or configuration of the computing system.
US10810067B1
A query referencing a function associated with a remote software component is received by a network-based data warehouse system. Temporary security credentials corresponding to a role at a cloud computing service platform are obtained. The role has permission to send calls to a web endpoint corresponding to the remote software component. A request comprising input data and electronically signed using the temporary security credentials is sent to a web Application Programming Interface (API) management system of the cloud computing service platform. The request, when received by the web API management system, causes the web API management system to invoke external functionality provided by the remote software component at the web endpoint with respect to the input data. A response comprising a result of invoking the external functionality is received from the web API management system, and the result data is processed according to the query.
US10810063B2
Described herein is a technology for account for messages or data that are not read by a receiver unit in a device. A sender unit collects data from a data source, which is passed on stored in an inter-processor communication (IPC) module. The receiver unit receives the data from the IPC module, while the sender unit predicts an expected time that that receiver unit will read the data and whether the receiver unit will actually read the data.
US10810053B2
In a Boundaryless Control High Availability (“BCHA”) system (e.g., industrial control system) comprising multiple computing resources (or computational engines) running on multiple machines, technology for computing in real time the overall system availability based upon the capabilities/characteristics of the available computing resources, applications to execute and the distribution of the applications across those resources is disclosed. In some embodiments, the disclosed technology can dynamically manage, coordinate recommend certain actions to system operators to maintain availability of the overall system at a desired level. High Availability features may be implemented across a variety of different computing resources distributed across various aspects of a BCHA system and/or computing resources. Two example implementations of BCHA systems described involve an M:N working configuration and M:N+R working configuration.
US10810051B1
The allocation system comprises an interface and a processor. The interface is configured to receive an indication to deactivate idle cluster machines of a set of cluster machines. The processor is configured to determine a set of tasks executing or pending on the set of cluster machines; determine a set of idle cluster machines of the set of cluster machines that are neither running one or more tasks of the set of tasks nor storing one or more intermediate data files of a set of intermediate data files, where the set of intermediate data files is associated with a set of tasks executing or pending on the cluster machines; and deactivate each cluster machine of the set of idle cluster machines.
US10810049B2
Systems and methods are described for bootstrapping an application with metadata specified in a template. The template specifies a stack of resources that will be used to execute an application and also includes a set of metadata for customizing the resources and the application. When the system receives the template, it instantiates a compute node which will execute the application. The compute node may contain at least one initialization script for bootstrapping the application with the metadata contained in the template. This functionality allows users to bootstrap the application running on the compute node with data from within the template that was used to create the stack of resources for executing the application. In this manner, metadata, configuration files, package names and versions can be passed by the application owner to the remote compute node.
US10810040B2
Embodiments of the present invention provide a system for real-time transmission of data associated with trigger events. The system is configured for identifying one or more priorities associated with a user, extract one or more triggers associated with the one or more priorities of the user, receiving an indication that at least one condition associated with at least one of the one or more triggers is met, determining that the user is performing one or more actions associated with at least one priority of the one or more priorities based receiving the indication, in response to determining that the user is performing the one or more actions associated with the at least one priority, dynamically extracting information associated with the user, and transmitting, in real-time, the extracted information associated with the user to at least one third party entity.
US10810039B2
An apparatus (2) may have a processing element (4) for performing data access operations to access data from at least one storage device (10, 12, 14). The processing element may have at least one transactional processing resource (10, 18) supporting processing of a transaction in which data accesses are performed speculatively following a transaction start event and for which the speculative results are committed in response to a transaction end event. Monitoring circuitry (30) captures monitoring data indicating a degree of utilization of the transactional processing resource (10, 18) when processing the transaction.
US10810037B1
The present invention relates to a hybrid memory system with live page migration for virtual machine, and the system comprises a physical machine installed with a virtual machine and being configured to: build a channel for a shared memory between the virtual machine and a hypervisor; make the hypervisor generate to-be-migrated cold/hot page information and writing write the to-be-migrated cold/hot page information into the shared memory; make the virtual machine read the to-be-migrated cold/hot page information from the shared memory; and make the virtual machine according to the read to-be-migrated cold/hot page information perform a page migration process across heterogeneous memories of the virtual machine without stopping the virtual machine.
US10810031B2
An example method of tracking memory modified by an assigned device includes allocating, by a hypervisor running a virtual machine, guest memory to a guest running on the virtual machine, where a device is assigned to the virtual machine. The method also includes reading, while the virtual machine is running on the hypervisor, a first input/output (I/O) state that indicates whether the device is currently processing one or more I/O requests, where the first I/O state is writable by the guest. The method further includes determining whether the first I/O state indicates that the device is currently processing one or more I/O requests. The method also includes determining to not transmit a memory page to a destination in response to determining that the first I/O state indicates that the device is currently processing one or more I/O requests. The memory page corresponds to the first I/O state.
US10810019B2
A method for interface refresh synchronization, a terminal device, and a non-transitory computer-readable storage medium are provided. The method includes: obtaining, in a user space of an operating system, refresh information of a plurality of interface refresh operations, when the plurality of interface refresh operations are initiated by a plurality of foreground applications in the user space; and transmitting the obtained refresh information of the plurality of interface refresh operations to a kernel space of the operating system, the refresh information including a thread number of each interface refresh operation, refresh time and refresh contents corresponding to each thread number.
US10810018B2
A device with extensibility includes an architecture modeled as an ability acquisition model including an ability unit for implementing an ability, an data input unit that is an interface for an input from the ability unit, and a data output unit that is an interface for an output from the ability unit, as an architecture for additionally incorporating a new ability to a basic configuration of the device, and includes an ability setting unit for adding the new ability to the device by setting a function to each of the ability unit, the data input unit, and the data output unit, based on ability providing data including ability setting data, input setting data, and output setting data.
US10810016B2
A method of operating a computing device includes a storage device receiving a request to execute an application instance, and executing the application instance at the storage device in response to the received request by the storage device. The application instance includes a plurality of storage instances connected with one another, and at least one of the plurality of storage instances is connected to a host device.
US10810015B2
Approaches are described for enabling a host computing device to store credentials and other security information useful for recovering the state of the host computing device in a secure store, such as a trusted platform module (TPM) on the host computing device. When recovering the host computing device in the event of a failure (e.g., power outage, network failure, etc.), the host computing device can obtain the necessary credentials from the secure store and use those credentials to boot various services, restore the state of the host and perform various other functions. In addition, the secure store (e.g., TPM) may provide boot firmware measurement and remote attestation of the host computing devices to other devices on a network, such as when the recovering host needs to communicate with the other devices on the network.
US10810008B2
Embodiments of the present invention provide a system for controlling versions of codes during software integration and deployment. The system is typically configured for creating a program increment development branch in a first environment system, opening a first iteration candidate under the program increment development branch with a first iteration version number associated with a program increment version range of the program increment development branch, receiving at least one first development code from a first user via a smart tool user interface, moving the first development code to the first iteration candidate, receiving a first input from the first user to lock the first iteration candidate, locking the first iteration candidate, and closing the first iteration candidate.
US10810003B2
Methods and systems for optimization of layering of a container image are presented. A modification factor is determined, based on modification events, for each one of multiple software elements. A container image layering structure is determined, based at least in part on the modification factors of the software elements, where the container image layering structure defines a layering order for two or more container sub-images that form the container image, and the layering order determines an order with which container sub-image from the container sub-images are to be executed to form the entire container image, and the container image layering structure further defines for each one of the container sub-images a respective subset of one or more software elements from the plurality of software elements. The container image is deployed based on the container image layering structure to be used for generation of containers in a cloud processing system.
US10809997B2
In an information processing apparatus, an execution unit executes a first program and a second program. While the information processing apparatus acts as a slave that performs a program update process in response to instructions from a different information processing apparatus, an update control unit updates the first program to a first updated program as a program to be executed. While the information processing apparatus acts as a master that controls the program update process, the update control unit updates the second program to a second updated program as a program to be executed, and notifies a management apparatus of a progress state of the program update process according to the first program or first updated program.
US10809992B1
Method and apparatus for continuous delivery of permissioned blockchain application is a solution for the distributed continuous delivery system making all organization verify moving forward to the next step in the pipeline according to the results shared on blockchain. The status is managed by continuous delivery manager implemented as a blockchain application (a.k.a. smart contract). A method also includes the distributed environment where all organization run tests by themselves.
US10809990B2
The disclosure provides an electronic system, a method for instructing an installation of the electronic system, and a computer program product. The electronic system includes a plurality of electronic device sets, a packing box, and a printed matter. The packing box is segmented into a plurality of containing packages, wherein each of the containing packages contains one of the electronic device sets, and the containing packages are labelled with a plurality of sequential numbers corresponding to an installation order of the electronic device sets contained therein. The printed matter is printed with downloading information related to installation software for providing a plurality of installation instructions of sequentially installing the electronic device sets one by one after being installed with the installation software.
US10809973B2
An example embodiment may involve determining that a client device (such as a smartphone, tablet, or in-automobile audio device) is in an automobile and that the client device has access to a playlist of audio content. Possibly based on the client device being in the automobile and having access to the playlist of audio content, the client device may request a stream of the audio content. As a consequence of making the request, the client device may receive the stream of the audio content and begin audible playout of the audio content.
US10809970B2
A method, computer program product, and computing system for obtaining encounter information of a patient encounter, wherein the encounter information includes machine vision encounter information; processing the machine vision encounter information to identify one or more humanoid shapes; and steering one or more audio recording beams toward the one or more humanoid shapes to capture audio encounter information.
US10809969B2
Implementations of a method of synchronizing audio playback may include, using a correction block and a second sample counter, comparing a number of playback samples in a slave channel stream with a number of master playback samples in a master channel stream received from a wireless telecommunication channel from a first audio speaker device. The method may include adjusting an input transfer rate of playback samples into an ASRC if the number of playback samples in the slave channel stream and the number of master playback samples is not the same, keeping an output transfer rate of playback samples of the slave channel stream out of the ASRC to a slave DAC at a constant value, and, through adjusting the input transfer rate into the ASRC, synchronizing the playback of audio data included in the slave channels stream with the playback of audio data included in the master channel stream.
US10809957B2
A control method and apparatus for a display screen. The method comprises: obtaining target light quantity data collected by a light sensor during a process of wearing a terminal device by a first user (101); updating a first light quantity data historical value file by using the target light quantity data to obtain a second light quantity data historical value file (102); determining a light quantity data threshold by using the second light quantity data historical value file (103); controlling a display state of the display screen of the terminal device according to the light quantity data threshold (104). The present disclosure can conveniently adjust the light quantity data threshold, so as to control the display state of the display screen of the terminal device accurately.
US10809956B1
Disclosed are systems and methods for presenting supplemental content items on a user device while requested additional content is obtained. For example, a user is presented with a content item, such as an image, an advertisement, etc., on a display of a user device. The content item, when interacted with by the user, results in a request for additional content, such as a web page, being sent to a remote computing resource, the additional content item being received by the user device from the remote computing resource, loaded by the user device, and presented to the user on the display of the user device. Rather than presenting the user with a blank screen, an empty window, a “loading” notification (e.g., spinning icon), etc., while the additional content item is retrieved and loaded, the implementations discussed herein provide the user with effectively instant gratification by presenting on the display of the user device and while the additional content item is retrieved and loaded, supplemental content that is already stored in memory of the user device.
US10809954B2
An information processing apparatus includes a touch panel and a display. The display displays a predetermined receiving section having a display form that is different between when an unfinished job is not present on the information processing apparatus and when the unfinished job is present on the information processing apparatus. If the predetermined receiving section has received an instruction from a user with the unfinished job not being present, the display displays a predetermined operation item, and if the receiving section has received the instruction from the user with the unfinished job being present, the display displays the predetermined operation item and an operation item that receives an instruction to display the unfinished job.
US10809949B2
A verifier and printer assembly are provided. The verifier and printer assembly include a verifier module and a printer. The verifier has a magnetic docking element and the printer includes a docking portion operable to dock the verifier module. The magnetic docking element and the docking portion interact with each other to removably couple the verifier module to the printer. A magnetic attachment system for the verifier module and methods for removably coupling the verifier module and the printer for verification of a printed machine-readable symbol are also provided.
US10809947B2
This invention relates to an apparatus for monitoring a locally attached printer using the locally attached printer's Ethernet interface. A USB device is installed between a computer and a locally attached printer and additional connects to the printer via an Ethernet interface. The USB device uses SNMP (or other network protocols) to manage the printer via the Ethernet interface. The system may then report the management information to a central server.
US10809945B2
One example method includes reading a data chunk from a data stream, compressing the data chunk, and calculating a chunk delta. When the chunk delta is greater than zero, the compressed data chunk is appended to an incomplete data chunk. When the chunk delta is zero or less, the boundaries of a completed and compressed data chunk having a size at least as large as a minimum size are declared.
US10809943B2
A data storage device includes a memory controller and a memory device. The memory controller includes multiple memory blocks, and each memory block includes multiple pages. The memory controller is coupled to the memory device and configured to access the memory device. In an initialization procedure of the data storage device, the memory controller is configured to determine whether a sudden power-off has occurred during a first write operation to write data to a first memory block, and when a sudden power-off is determined to have occurred during the first write operation, the memory controller is configured to select a second memory block that is and write data to the second memory block in a second write operation.
US10809933B2
A matrix transfer accelerator (MTA) system/method that coordinates data transfers between an external data memory (EDM) and a local data memory (LDM) using matrix tiling and/or grouping is disclosed. The system utilizes foreground/background buffering that overlaps compute and data transfer operations and permits EDM-to-LDM data transfers with or without zero pad peripheral matrix filling. The system may incorporate an automated zero-fill direct memory access (DMA) controller (ZDC) that transfers data from the EDM to the LDM based on a set of DMA controller registers including data width register (DWR), transfer count register (TCR), fill count register (FCR), EDM source address register (ESR), and LDM target address register (LTR). The ZDC transfers matrix data from the EDM[ESR] to the LDM[LTR] such that EDM matrix data of DWR row data width is automatically zero-filled around a periphery of a matrix written to the LDM matrix based on the FCR value.
US10809925B2
A memory device comprises a memory array with I/O path and security circuitry coupled to the I/O path of the memory array. The memory device comprises control circuitry, responsive to configuration data, to invoke the security circuitry. The memory device comprises a configuration store, storing the configuration data accessible by the control circuitry to specify location and size of a security memory region in the memory array. Responsive to an external command and the configuration data, the control circuitry can be configured to invoke the security circuitry on an operation specified in the external command in response to accesses into the security memory region, or to not invoke the security circuitry in response to accesses to outside the security memory region.
US10809920B1
First information about regions of storage space in a storage environment available for a volume is provided to a service provider, with the storage environment being external to the service provider. The service provider is notified that information usable to locate a storage destination of a portion of the volume is unavailable. Second information that includes the storage destination in the storage environment is obtained from the service provider. A data operation is performed at the storage destination, with the storage destination determined based at least in part from the second information.
US10809918B2
Options for handling write operations may be selected based on a determined probability that a read operation for a portion of data will occur while the data portion is still in an I/O cache as a result of a write operation. As used herein, a “read-after-write event (“RAW”) is an occurrence of a read operation for a portion of data while the data portion is still in an I/O cache as a result of a write operation. The probability of a RAW may be determined by applying Bayesian inference, and may include applying exponential smoothing to calculations made on historical I/O information so that more recent I/O events have greater weight in determining RAW probability. Based on the determined RAW probability, write data may either be journaled in a write journal or written to a cache slot and de-staged to a physical storage device as part of write-in-place processing.
US10809915B2
A server computer runs several remote mobile operating systems. A remote mobile app running on one of the remote mobile operating systems generates a user interface that includes an input field for receiving a credential. The user interface is displayed on a touchscreen of a mobile device that is in communication with the server computer. A touchscreen keyboard with an autofill button is displayed on the touchscreen. When a user of the mobile device clicks on the autofill button, the credential of the user is retrieved and sent from the mobile device to the server computer, where the credential is entered into the input field.
US10809913B1
A process for traversing or manipulating data of a data display is provided. A gesture identifier may be received indicating a display control gesture was received by a sensor. The gesture identifier may be associated with a change in one or more dimensions of the data display. Configuration data for the gesture identifier may be accessed to determine an action, and one or more parameters associated with the gesture identifier, for execution. The action may determine one or more options for traversing or manipulating the data visualization or displayed data set. The associated action may be executed using the one or more parameters. Executing the action may include generating an updated set of dimensions based at least in part on the one or more parameters, retrieving a set of database data defined by the updated dimensions, and generating a display of the retrieved set of database data.
US10809908B2
One or more embodiments described herein include methods and systems of organizing a user interface of a communication system. More specifically, systems and methods described herein provide users the ability to easily and effectively compose an electronic communication directly in a communication thread, thus reducing user interface clutter. Additionally, systems and methods described herein selectively provide display elements within a messaging user interface according to the type of message a user is creating.
US10809903B2
An information processing apparatus according to an embodiment of the present technology includes a detection unit, an acceptance unit, and an image control unit. The detection unit is capable of detecting whether or not each of a plurality of reproduction apparatuses constitutes a group related to reproduction of content, each of the plurality of reproduction apparatuses being connected to a network, each of the plurality of reproduction apparatuses being capable of reproducing the content. The acceptance unit accepts a user operation related to constitution of the group. The image control unit outputs a group state image on the basis of a detection result by the detection unit, the group state image representing a constitution state of the group, the group state image including an image of each of the plurality of reproduction apparatuses, and controls the group state image in response to the accepted user operation related to constitution of the group.
US10809899B2
An apparatus for providing marine information is provided including a user interface, a processor, and a memory including computer program code. The memory and the computer program code configured to, with the processor, cause the apparatus to establish data communication with a remote computing device, receive user interface display data from the remote computing device, determine a display mode for the user interface, generate a mirror user interface display based on the user interface display data and the display mode, and cause the mirror user interface display to be displayed on the user interface in a predetermined orientation based on the display mode to maximize utilization of space allocated to the mirror user interface display on the user interface.
US10809898B2
In implementations of a color picker, a color picker is generated and exposed in the context of color adjustment, making it easier for a user to select an appropriate color than with full-screen color pickers. A color picker acts as a window into a larger color map by exposing a portion of the color map selectable with touch gestures, enabling a user to easily access any content of a color map having very large numbers of color, at any desired level of detail, and determine a desired color. An indicator of current color at a fixed position of a color picker is updated in real time as content exposed by the color picker is updated. Hence, the current color is determined without obstruction by a user, as opposed to a user touching directly on a color to select a current color.
US10809889B2
Indicators such as visible icons or other objects are presented on a display, with each indicator being associated with a respective profile that defines interactive events for which notifications are desired. Broadcast video is presented along with the indicators, and when an interactive event signal is received, if a profile indicates that a notification for that type of event is desired, the associated indicator is altered in appearance, e.g., by changing color, or motion, or other technique. If a profile does not indicate that the type of event should be notified, the corresponding indicator is not altered in appearance, e.g., can remain grayed out yet still visible.
US10809888B2
Computer-implemented systems and methods are disclosed for providing a graphical user interface for tagging external content. In accordance with some embodiments, a method is provided for tagging content external to a database system. The method comprises accessing the external content of an electronic device. The method may comprise enhancing the web browser by providing a tagging interface for tagging at least a portion of the external content. The method may further comprise receiving created tag associated with a tagged portion of the external document content, and exporting the external content and the received tag to the database system. The tagging interface can also provide an option to export the created tag to an internal database system.
US10809883B2
A collaborative computing device group operative under a shared multiple discrete desktop user interface is established from a first desktop of a first computing device and a different discrete desktop of a second computing device physically located in user visual proximity to the first computing device. A color-coded graphical representation of a user-interface control port that allows authorized cursor navigation to and from the second computing device is displayed on the first desktop oriented in a respective direction of the second computing device. A cursor of the second computing device is authorized to migrate, under control of a user of the second computing device, from the different discrete desktop through the color-coded graphical representation of the user-interface control port of the second computing device to the first desktop and the first computing device is controlled in accordance with visual navigation and control of the cursor of the second computing device.
US10809865B2
Various technologies described herein pertain to presenting a graphical object on a display screen. An indication that specifies a selected value attribute from a dataset for the graphical object and an example icon for the graphical object can be received. The example icon is a cluster of strokes, where a stroke is a mark that is displayable on the display screen. The graphical object is generated based upon the example icon and data for the selected value attribute from the dataset. The graphical object includes instances of the example icon respectively modified based upon the data for the selected value attribute from the dataset. The graphical object can be caused to be displayed on the display screen. Creation of strokes of the instances of the example icon included in the graphical object can be recorded for subsequent replay. The graphical object can be annotated and/or modified by filtering the data.
US10809863B2
An apparatus and method are provided for controlling a coordinate measuring apparatus including a first touch panel that detects a contact of a portion of a human body and a contact of a coordinate indicating apparatus, and a second touch panel for detecting an electromagnetic signal from the coordinate indicating apparatus. The method includes determining a detection state of the coordinate indicating apparatus based on the electromagnetic signal detected by the second touch panel; and determining an activated area of the first touch panel based on the detection state of the coordinate indicating apparatus.
US10809862B2
A touchscreen resistive sensor includes a network of resistive sensor branches coupled to a number of sensor nodes arranged at touch locations of the touchscreen. A test sequence is performed by sequentially applying to each sensor node a reference voltage level, jointly coupling to a common line the other nodes, sensing a voltage value at the common line, and declaring a short circuit condition as a result of the voltage value sensed at the common line reaching a short circuit threshold. A current value level flowing at the sensor node to which the reference voltage level is applied is sensed and a malfunction of the resistive sensor branch coupled with the sensor node to which a reference voltage level is applied is generated as a result of the current value sensed at the sensor node reaching an upper threshold or lower threshold.
US10809861B2
Disclosed is an electronic device that includes: a housing including a first plate facing a first direction and a second plate facing a direction opposite the first direction; a display layer disposed between the first and second plates; and a touch detection layer disposed between the display layer and the second plate, wherein the touch detection layer may include: a first layer including a first face facing the display layer, a second face facing a direction away from the first face, and an opening; a second layer disposed between the opening and the second plate, electrically connected to the first layer, and being coupled to the first layer; and a fingerprint sensor disposed in the opening and disposed between the first layer and the second layer.
US10809848B2
A touch-control display panel, driving method, and a touch-control display device are provided. The touch-control display panel includes: a display area including a plurality of pixels; a non-display area; a first substrate; and a second substrate opposing the first substrate. A portion of the first substrate in the first region includes a pixel electrode layer and a first electrode layer. The first electrode layer is located on a side of the pixel electrode layer away from the second substrate and includes a plurality of first electrodes. The pixel electrode layer includes a plurality of pixel electrodes. A touch-control electrode layer is located on a side of the second substrate toward the first substrate and includes a plurality of touch-control electrodes. Along a direction perpendicular to the touch-control display panel, each touch-control electrode of the plurality of the touch-control electrode overlaps with and connects with one or more first electrode of the plurality of the first electrodes.
US10809844B2
A mobile terminal having a touch screen and a method present a user interface in the mobile terminal having a touch screen. The method includes: detecting a touched area corresponding to a touch when the touch is sensed in the touch screen; and executing different functions according to whether the detected touched area is equal to or greater than a preset area threshold. Various touch inputs are sensed through a touch screen in the mobile terminal, and the mobile terminal and method present user interfaces corresponding to the respective touch inputs.
US10809842B2
A source touch display device includes a communication interface, a source touch sensor, and a controller. The communication interface is configured to communicatively couple the source touch display device with a target touch display device. The controller configured to receive, via the source touch sensor, touch inputs from an active input device, determine that the active input device will likely move from the source touch sensor to a target touch sensor of the neighboring target display device based on the touch inputs, send, via the communication interface, active input device pairing information to the target touch display device, receive, via the communication interface, target touch display device pairing information from the target touch display device, and send the target touch display device pairing information to the active input device to effect a pairing between the active input device and the target touch display device.
US10809839B2
A touch panel display device is provided with an active matrix substrate having multiple pixels corresponding to N-number colors (N is an odd number of three or more). The active matrix substrate includes multiple source lines, multiple common electrodes, and multiple signal lines connected to the respective common electrodes. The active matrix substrate includes, outside its display area, a source line driving circuit, a common electrode driving circuit that supplies a predetermined voltage signal to the signal lines, source line connection portions that connect between the source lines and the source line driving circuit, signal line connection portions that connect between the signal lines and the common electrode driving circuit, and multiple outside-area dummy lines having predetermined potential. The source line connection portions of the source lines for the pixels of at least two adjacent colors are overlapped with each other, and the source line connection portions of the source lines for the pixels of the remaining color are overlapped with the signal line connection portions or the outside-area dummy lines.
US10809834B2
Embodiments of the present disclosure provide a touch display panel, a method of driving the touch display panel, and a display apparatus with the touch display panel. The touch display panel includes: a common electrode layer disposed in an array substrate or a color filter substrate, configured for displaying an image, and including: a plurality of first strip-shaped electrodes each serving as a first touch feedback electrode and one of a touch drive electrode and a touch sense electrode; and a plurality of second strip-shaped electrodes crossing the first strip-shaped electrodes, and each serving as a second touch feedback electrode; and a plurality of third strip-shaped electrodes disposed in the color filter substrate and each serving as the other of the touch drive electrode and the touch sense electrode. a An extending direction of the third strip-shaped electrodes crosses an extending direction of the first strip-shaped electrodes.
US10809833B2
A fingerprint sensor includes: a plurality of sensing electrodes provided on one surface of a base substrate, the plurality of sensing electrodes being arranged in a matrix form; and a ground electrode provided on the other surface of the base substrate. The ground electrode includes: a plurality of first lines extending in one direction, the plurality of first lines being parallel to one another; and a plurality of second lines extending in a direction intersecting the first lines, the plurality of second lines being parallel to one another. In a plan view, the first lines and the second lines are provided between adjacent sensing electrodes.
US10809831B2
A biometric-recognition display panel is provided. The biometric-recognition display panel includes a substrate, a pixel array, a plurality of sensing circuits and a control circuit. The substrate includes a display area. The pixel array is disposed on the display area and the pixel array includes a plurality of pixels. The sensing circuits are disposed on the display area and each of the sensing circuits generates a threshold voltage by sensing the intensity of light. The control circuit performs biometric recognition according to each of the threshold voltages generated by each of the sensing circuits.
US10809813B2
In a system, a server controller is configured to receive at least part of at least one personal dictionary, and is further configured to generate an adapted dictionary using words of the at least part of at least one personal dictionary. The server controller is also configured to transmit at least part of the adapted dictionary to the apparatus configured to use the adapted dictionary during predictive text entry. The apparatus includes an apparatus controller that is configured to receive at least part of an adapted dictionary from the server. The apparatus controller is also configured to utilize at least part of an adapted dictionary when predictive text entry is performed.
US10809812B2
A device for inputting data into an information processing apparatus using a communication cable. The device includes a sensing field including signal lines. The sensing field generates one or more signals when an object is proximate thereto. The device further includes at least one processor connected to the signal lines. The processor receives the signals and generates data based on the signals. The device additionally includes a port in communication with the processor for data output. The port is configured to connect to the cable and communicate the data over the cable to the information processing apparatus. The device includes a light source configured to illuminate keyboard symbols corresponding to areas of the sensing field. The device also includes an exterior surface covering the sensing field and obscuring the keyboard symbols from visibility unless the light source is providing illumination.
US10809798B2
A wearable computing device includes a head-mounted display (HMD) that generates a virtual reality environment. Through the generation and tracking of positional data, a focal point may be tracked with respect to one or menu navigation elements. Following the fixated positioning of the focal point over the menu navigation element for a predetermined amount of time, a process corresponding to the menu navigation element is executed.
US10809797B1
A system including a computing device receiving a first indication, the first indication indicating that a plurality of sensor modules are positioned in placeholders in a container device, wherein the placeholders are configured to hold the plurality of sensor modules at pre-determined positions and orientations in the container device. In response to the first indication, the computing device calibrates orientation measurements of the plurality or sensor modules relative to a first common reference system based on the pre-determined positions and orientations in the container device. The computing device then receives a second indication, the second indication indicating that the sensor modules are positioned on parts of a user; and in response to the second indication, the computing device calibrates the plurality of sensor modules relative to user's reference system aligned with the orientation of the user based on a specific orientation relation between the arm sensor module and the orientation of the user, wherein the arm sensor module is one of the plurality of sensor modules.
US10809796B2
Systems, methods, and computer-readable media for monitoring a user of a head-wearable electronic device with multiple light-sensing assemblies.
US10809794B2
An example method is provided in according with one implementation of the present disclosure. The method includes identifying an intention of a user of a system in relation to a three-dimensional (3D) virtual object and selecting a 3D navigation mode from a plurality of 3D navigation modes based on the identified user intention. The plurality of 3D navigation modes includes at least a model navigation mode, a simple navigation mode, a driving navigation mode, a reaching navigation mode, and a multi-touch navigation mode. The method further includes transitioning the system to the selected 3D navigation mode.
US10809792B2
A signal acquisition or conditioning amplifier can be configured and controlled to use correlated doubling sampling (CDS) of a differential input signal, and a storage capacitor in a capacitive or other feedback network, a low power operational transconductance amplifier (OTA) capable of being powered down between CDS samplings, and which can be operated in a manner that provides good performance characteristics while still providing low or efficient power consumption. The amplifier and other signal processing circuitry can allow power to be scaled down, when less signal measurement throughput is needed, and to be scaled up, when more signal measurement throughput is needed. Such flexibility can help make the present approach useful for a wide range of signal acquisition and measurement applications. Precharging via buffer amplifiers can provide improved signal acquisition circuitry effective input impedance.
US10809790B2
Apparatus and methods are provided for improving yield and frequency performance of integrated circuit processors, such as multiple-core processors. In an example, an apparatus can include a plurality of clock buffers, each clock buffer of the plurality of clock buffers configured to receive a first clock signal and distribute a plurality of second clock signals, a one-time programmable locate critical path mechanism configured provide a plurality of indications to enable or disable a delay of each clock buffer of the plurality of clock buffers, and a power management control circuit configured to over-ride one or more of the plurality of indications in a first non-test mode of operation of the apparatus and to not over-ride the one or more indications in a second non-test mode of operation of the apparatus.
US10809787B2
A device includes a USB-C controller instantiated as a first integrated circuit that includes a first set of host terminals coupled to host controllers and a second set of terminals coupled to sets of D+/D− terminals of a type-C receptacle. A D+/D− multiplexer is to selectively couple the first set of host terminals to the second set of terminals. An electrostatic discharge (ESD) protection circuit is coupled between the D+/D− multiplexer and the second set of terminals. A charger detector circuit is coupled between a positive data system terminal and a negative data system terminal of the first set of terminals, the charger detector circuit to detect whether the second set of terminals is coupled to a USB charger through the type-C receptacle.
US10809783B2
A power source device includes a switching circuit configured to switch the power supply mode between a first power supply mode, in which power is supplied to a drive circuit for an electric motor by only a main power source, and a second power supply mode, in which power is supplied to the drive circuit utilizing both the main power source and an auxiliary power source. A control device includes: a determination unit that determines whether the operation state of the electric motor is a regeneration state or a power-running state; and a unit configured to limit power to be supplied to the drive circuit when the power supply mode is the second power supply mode and it is determined by the determination unit that the operation state of the electric motor is the regeneration state.
US10809776B2
A water block mounting holder with reinforced structure includes a holder body and a reinforcement structure provided on an upper side of the holder body, and is used with a water block to attach the latter to a heat-producing element mounted on a motherboard. The holder body has a hollow-out central opening and a plurality of through holes spaced along an outer area of the holder body for a plurality of fixing elements provided on the motherboard to extend therethrough and fixedly hold the holder body to the motherboard, so that the holder body is connected to the water block with the opening being fitted around the water block. With the reinforcement structure provided on the holder body, the water block mounting holder has effectively reinforced overall structural strength to avoid pressure deformation thereof.
US10809774B2
There is provided a chassis for a computing system comprising a heat-generating element. The chassis comprises a body with at least a portion thereof made of a non-metallic material, namely a nonmetallic portion. For example, the non-metallic material can be a moldable plastic. There is provided a channel made in the non-metallic portion, the channel having a starting point close to a dedicated location for a fan, the channel having an ending point close to a dedicated portion for the heat-generating element, the channel shaped to guide fluid propelled at the starting point to the ending point. The channel can be a tunnel inside the body or a valley on the surface of the body, and confines fluid flow from the fan, guiding the fluid flow to the heat-generating element.
US10809771B2
In one example, an electronic device is described, which includes a position activator, a database including display positions associated with a plurality of users, and a processor coupled to the position activator and the database. The processor may retrieve a display position corresponding to a user operating the electronic device from the database and trigger the position activator to set a viewing position of a display of the electronic device based on the retrieved display position.
US10809769B2
An electronic device includes: a first case provided with an opening portion; a second case that has one end portion provided with a fulcrum portion engaged with the first case and rotates about the fulcrum portion to close the opening portion in an openable manner, and a packing portion that is provided to be inclined to be more on an inner side of the second case at a portion closer to the fulcrum portion of the second case, and comes into pressure contact with an edge portion of the opening portion when the second case closes the opening portion.
US10809763B2
A chassis for an electronic includes: an outer wall having a first end; a rib that projects into the chassis from a position away from the first end of the outer wall in a first direction, and that extends along the first end; a first member made of a first material, including a first part that forms a part of the outer wall and a third part that forms a part of the rib; and a second member made of a second material different from the first material and joined to the first member. The second member includes a second part that forms a part of the outer wall and is aligned with the first part in the first direction, and a fourth part that forms a part of the rib and is aligned with the third part in the first direction.
US10809762B1
An accessory display device for a display device, such as for a computer, is described. The device includes a housing having a first side and a second side movable relative to one another and a first pair of rails coupled to the first side and a second pair of rails coupled to the second side, the first pair of rails engaged with and slidable relative to the second pair of rails. The device also includes a tensioning member coupled to the first side and the second side and placing tension between the first side and second side. Further, the device includes a first engagement portion coupled to the first side and a second engagement portion coupled to the second side. The first engagement portion and the second engagement portion are configured to engage the side of a computer's display under force created by the tensioning member. Further still, a first display is slidable within the housing and is movable from a stowed position to a use position.
US10809757B2
The preset invention provides a clock buffer including a first circuit, a second circuit and an edge collector, wherein the first circuit is arranged to receive an input clock signal to generate a first clock signal, the second circuit is arranged to receive the input clock signal to generate a second clock signal, and the edge collector is arranged to generate an output clock signal by using a falling edge of the first clock signal and a rising edge of the second clock signal.
US10809754B2
A system for controlling energy consumption. The system may incorporate devices configured on a floor map, a monitor that detects energy consumption by each device, a heat map shown on the floor map, a processor, and a user interface having a display connected to the processor. The heat map may indicate energy consumption in various areas of the floor plan. The floor map with the heat map may be a screen on the display. The energy consumption by each of the devices from the monitor may be calculated by the processor in time that each device is active and in a power rating of the respective device. The energy consumption by each of the devices may be converted by the processor into cost. From a screen, a user may define a virtual and dynamic zone to optimize and control the energy consumption.
US10809752B2
Bandgap voltage reference, and a precision voltage source including such a bandgap voltage reference
A technique for improving the stability of a voltage reference is provided. The implementation of technique is simple and elegant and does not involve a noise penalty. A compensation resistor is provided on one end of a string of resistors used to set a ΔVBE in a PTAT cell and to set a gain applied to the PTAT cell voltage.
US10809744B2
A method of controlling rotor moments includes receiving, in a flight control computer (FCC) a rotor moment reference value based on pilot inceptor inputs, sensing rotor moment from one or more sensors, receiving, in the FCC, a rotary wing aircraft condition parameter, and establishing, through the FCC, a rotor blade pitch angle for one or more of a plurality of rotor blades that counteracts external forces acting upon the rotary wing aircraft.
US10809737B2
An illustrative example embodiment of a detector device, which may be useful on an automated vehicle, includes an array of detectors arranged in one dimension. The array includes a plurality of first detectors and a plurality of second detectors. The first detectors respectively have one of the second detectors between the first detector and an adjacent one of the first detectors. The first detectors respectively are spaced from the one of the second detectors by a first distance. The one of the second detectors are respectively spaced from the adjacent one of the first detectors by a second distance that is larger than the first distance. The first detectors are spaced from each other by a third distance that is a sum of the first and second distance. The second detectors are also spaced from each other by the third distance.
US10809734B2
An example system includes a computing system configured to identify an event in an area between a first location and a second location and to adjust, based on the event, content of a cost map containing a representation of one or more routes between the first location and the second location. The system also includes an autonomous device configured to move between the first location and the second location based on the cost map.
US10809725B2
A trolling motor system is provided including a wired or wireless controller and a trolling motor assembly configured for attachment to a watercraft. The trolling motor assembly includes a steering assembly configured to steer a trolling motor housing based on a steering command received from the wired or wireless controller in a remote mode, a handle configured to enable a user to steer the trolling motor housing in a local mode, a processor, and a memory including computer program code. The computer program code is configured to, when executed, cause the processor to receive one or more steering commands from the wired or wireless controller, cause the steering assembly to steer the trolling motor housing based on the one or more steering commands, receive an indication to enter the local mode, and disable the steering assembly in response to receiving the indication to enter the local mode.
US10809720B2
System and method for bi-directional autonomous vehicle. In one aspect, a vehicle's forward direction and front end are determined by a user's command or sitting orientation. In another aspect, a vehicle's forward direction and front end are determined by a user's records or prearrangements. Moreover, a vehicle's shape is adjustable according to front end selection.
US10809709B2
An information storage system and apparatus relate to the field of automatic control technologies in order to resolve a problem that there is little information for diagnosing a fault that is stored using a freeze frame. The system includes at least one subcontroller configured to obtain a parameter value corresponding to a parameter, and send the parameter and the parameter value corresponding to the parameter to a management controller, the management controller configured to send the received parameter and the received parameter value corresponding to the parameter to a vehicle-intelligent device, and the vehicle-intelligent device is configured to receive and store the parameter and the parameter value corresponding to the parameter, where each subcontroller is coupled to at least one executor, and the management controller is coupled to each subcontroller of the at least one subcontroller.
US10809707B2
An HVAC&R monitor detects short-term and long-term system efficiency degradations by modeling either compressor input power or current. The model is continuously updated with new or recent temperature and power parameter measurements reflecting the most up-to-date operating condition of the system. Short-term system degradations are detected instantaneously by comparing compressor power or current as predicted by the model against measured power or current usage. Long-term system degradations are detected over time by monitoring the sensitivity of the compressor power or current usage to evaporator and/or condenser fluid temperatures. An appropriate warning and/or signal may be issued if system efficiency degradation is detected.
US10809699B2
The application refers to a method for generating three-dimensional object models for an additive manufacturing process in a layer-by-layer manner, e.g. 3D-printing, and to generating control data for use by the print apparatus. The object models are generated from a geometric description and from object generation data, which comprise the print apparatus and attributes such as a halftone scheme, a print apparatus setting, an object structure and a print material coverage representation. The method is implemented in the form of a computer software product and generates data specific for each identifies printing device.
US10809672B2
A measurement system includes a control device which controls a control target device in real time and transmits control data to a terminal device, and a measuring instrument which acquires data indicating a physical status of the control target device and transmits the data as measurement data to the terminal device. The control device includes a control unit and a sequence control unit, and the control unit transmits a timing signal to the measuring instrument. The control device transmits the control data that includes a piece of time information based on the timing signal to the terminal device. The measuring instrument transmits the measurement data that includes a piece of time information based on the timing signal to the terminal device. The terminal device compensates for a delay between the control data and the measurement data on the basis of the pieces of time information.
US10809670B2
The invention provides a timing apparatus that can generate timing information regarding a plurality of regions without performing a complex calculation that uses software and without causing a significant increase in electric current consumption. The timing apparatus includes: a lower counter that generates a count value that indicates a time in seconds; a first group of upper counters that generates a first group of count values that indicate a time in minutes, hours, days, months and years by performing a count operation in synchronization with the count operation performed by the lower counter; and a second group of upper counters that generates a second group of count values that indicate a time in minutes, hours, days, months and years by performing a count operation in synchronization with the count operation performed by the lower counter.
US10809669B2
Systems, methods, and circuitries are disclosed for controlling an adaptive time-to-digital converter (TDC) that determines a phase difference between a reference signal and a phase locked loop (PLL) feedback signal. Adaptive TDC circuitry includes a chain of n delay elements each characterized by a delay. Gate circuitry generates a gated PLL feedback signal while a gating enable signal has an enable value. N sampling elements, each associated with a delay element, are enabled by the reference signal arriving at the input of the associated delay element to store a value of the gated PLL feedback signal. Adaptive gating circuitry is configured to generate the gating enable signal based on the delay and a period of the PLL feedback signal. A supply voltage for the delay elements may be controlled to cause the delay elements to exhibit a desired delay.
US10809665B2
A timepiece movement includes a date indicator for date display, a date indicator driving wheel for advancing the date indicator, a lunar age indicator for lunar age display, and a lunar age indicator driving wheel for rotating the lunar age indicator. The date indicator and the lunar age indicator are coaxially disposed, and the date indicator driving wheel and the lunar age indicator driving wheel are coaxially disposed.
US10809656B1
A system, method, and apparatus provide an improvement to user guided operation or troubleshooting of a device by illuminating an area of the device for the user's attention. Embodiments may include a plurality of lights. Each light is positioned respectively in a predetermined location in the printing apparatus, which may comprise known locations for paper jams to occur. Embodiments may also include a voice recognition module and a controller module connected to the plurality of lights. The controller module may be configured to: receive, from the voice recognition module, a user generated message requesting identification of the location of the paper jam; identify which of the predetermined locations has the paper jam; and activate a selected one of the plurality of lights, wherein the selected one of the plurality of lights is positioned to illuminate the predetermined location with the paper jam.
US10809647B2
An image forming apparatus, including: a photoconductor; a developing device; a developer storage; a supplier configured to supply developer; an optical sensor; and a controller configured to execute: a developing process of developing an electrostatic latent image on the photoconductor; a usage-amount obtaining process of obtaining a usage amount of the developer; a supplying process of supplying the developer to the developing device every time when the obtained usage amount becomes equal to or greater than a first threshold; and a detecting process of detecting, by the optical sensor, an amount of the developer in the developing device every time when the obtained usage amount becomes equal to or greater than a second threshold larger than the first threshold, and wherein the controller is configured to execute the detecting process in a period different from a period in which the developing process is being executed.
US10809645B2
A light emitter includes: plural light emitting thyristors that each have an anode, a cathode, and a gate and are connected in parallel between a reference voltage line to which a reference voltage is supplied and a lighting voltage line to which a lighting start voltage for starting lighting is supplied, in which the anode and the cathode are connected respectively to the reference voltage line and the lighting voltage line; and a gate voltage setting section that, when at least one of the plural light emitting thyristors transitions from an off-state to an on-state, sets a voltage on the gate of each of the plural light emitting thyristors to a voltage between the lighting start voltage and an on-state voltage of the light emitting thyristor.
US10809642B2
Provided is a light emitting chip C including: a substrate 80; light emitting elements each having one terminal connected to a predetermined reference potential and the other terminal, the light emitting element having a rectifying characteristic; and thyristors each connected in series with the other terminal of the light emitting elements, respectively, the thyristors being configured to make the light emitting element connected thereto emit light or increase light emission amount of the light emitting element when the thyristors turn on in an ON state.
US10809636B2
An optical arrangement, in particular a lithography system, includes: a movable component, in particular a mirror; at least one actuator for moving the component; and at least one stop having a stop face for delimiting the movement of the component. The optical arrangement further includes, on a stop or on a plurality of stops, at least two stop faces for delimiting the movement of the movable component in one and the same movement direction.
US10809629B2
A method and an apparatus for computing feature kernels for optical model simulation are provided. In the method, a feature matrix mathematically describing a plurality of properties of an optical imaging system is identified. A sampling matrix comprising at least one vector serving as input to form a low-rank basis for the feature matrix is generated. The sampling matrix is iteratively multiplied by the feature matrix and a multiplication result is adaptively rescaled according to numerical stability until a convergence condition is met. The iteration results are used to form a reduced feature matrix. Decomposition values of the reduced feature matrix are computed and a plurality of feature kernels are extracted from the computed decomposition values.
US10809624B2
Extreme ultraviolet (EUV) exposure apparatuses and methods, and methods of manufacturing a semiconductor device by using the exposure method, which minimize an error caused by a mirror in an EUV exposure process to improve an overlay error, are provided. The EUV exposure apparatus includes an EUV source configured to generate and output EUV, first illumination optics configured to transfer the EUV to an EUV mask, projection optics configured to project the EUV, reflected from the EUV mask, onto an exposure target, a laser source configured to generate and output a laser beam for heating, and second illumination optics configured to irradiate the laser beam onto at least one mirror included in the projection optics.
US10809619B2
A resist underlayer film for use in lithography process which generates less sublimate, has excellent embeddability at the time of applying onto a substrate having a hole pattern, and has high dry etching resistance, wiggling resistance and heat resistance, etc. A resist underlayer film-forming composition including a resin and a crosslinkable compound of Formula (1) or Formula (2): in which Q1 is a single bond or an m1-valent organic group, R1 and R4 are each a C2-10 alkyl group or a C2-10 alkyl group having a C1-10 alkoxy group, R2 and R5 are each a hydrogen atom or a methyl group, R3 and R6 are each a C1-10 alkyl group or a C6-40 aryl group.
US10809613B2
A mask for extreme ultraviolet (EUV) lithography includes a multilayer (ML) stack including alternating metal and semiconductor layers disposed over a first surface of a mask substrate, a capping layer disposed over the ML stack, and an absorber layer disposed over the capping layer. An image pattern is formed in the absorber layer. A border layer surrounding the image pattern is disposed over the absorber layer.
US10809612B2
The present invention discloses a design method of a sub resolution assist feature, which comprises the following steps of: S01: forming a sub resolution assist feature in the mask plate, the upper surface of the sub resolution assist feature is aligned with the upper surface of the mask plate; S02: forming a process pattern on one side, which contains the sub resolution assist feature, of the mask plate, the position of the process pattern is not superposed with the sub resolution assist feature in a vertical direction.
US10809607B2
An illumination system including an excitation light source, a wavelength conversion module, a light splitting module and a light homogenizing element is provided. The light splitting module has a transfer region and a light splitting region, an excitation beam incident to the wavelength conversion module is converted into a wavelength converted beam by a wavelength conversion region, and is reflected by the reflection region, and the excitation beam coming from the wavelength conversion module is split into a first and a second sub-excitation beams by the light splitting region, and the first sub-excitation beam and the second sub-excitation beam form an excitation combination beam. The light homogenizing element uniforms the excitation combination beam and the wavelength converted beam, where an angle of the excitation combination beam incident to the light homogenizing element is 0.25 times larger than an angle of the wavelength converted beam incident to the light homogenizing element.
US10809595B2
To enable continuous operational control of the blade member with high resolution and good accuracy, even when achieving miniaturization and thickness reduction in a blade driving device, through enabling smooth movement of a movable member in a blade driving device. A blade driving device 1 comprises: a base member 2 that has an opening 2A; one or a plurality of blade members 3 that operate so as to advance into the opening 2A or withdraw from the opening 2A; a driving member 4 that moves within a plane that is perpendicular to the optical axis that passes through the opening 2A, to drive the blade member 3; and supporting members 7 that are provided between the base member 2 and the driving member 4, so as to provide sliding support or elastic support of the driving member 4 in a state that is separated from the base member 2.
US10809592B2
An apparatus for producing squeezed light includes a substrate and a first beam splitter integrated onto the substrate. The apparatus also includes a Mach-Zehnder interferometer integrated onto the substrate. The Mach-Zehnder interferometer has a first input coupled to a first output of the first beam splitter and a first output coupled to a second output of the first beam splitter. The apparatus also includes a waveguide integrated onto the substrate and connecting a second input of the Mach-Zehnder interferometer to a second output of the Mach-Zehnder interferometer. The waveguide and the Mach-Zehnder interferometer form a ring resonator. The ring resonator can also be replaced by a waveguide section, including, for example, a spiral waveguide.
US10809586B2
A mirror display module including a first substrate, pixel units, a second substrate, a display medium layer, a reflection pattern, a third substrate, an electrochromic material layer, a first transparent electrode, and a second transparent electrode is provided. The pixel units are disposed on the first substrate. The second substrate is disposed opposite to the first substrate. The display medium layer is located between the first substrate and the second substrate. The reflection pattern is located between the second substrate and the display medium layer. The reflection pattern has a plurality of openings, and the plurality of openings is overlapped with at least a portion of the plurality of pixel units. The second substrate is located between the third substrate and the first substrate. The electrochromic material layer is located between the third substrate and the second substrate. The first transparent electrode is located between the third substrate and the electrochromic material layer. The second transparent electrode is located between the electrochromic material layer and the second substrate.
US10809579B2
A liquid crystal display includes: a first substrate; a pixel electrode on the first substrate and including a first subpixel electrode and a second subpixel electrode which are separated from each other; a second substrate facing the first substrate; a common electrode on the second substrate; and a liquid crystal layer between the first substrate and the second substrate, in which the first subpixel electrode includes a first plate-shaped portion and a plurality of first branch electrodes extended from the first plate-shaped portion, the second subpixel electrode includes a second plate-shaped portion surrounds the first branch electrodes and a plurality of second branch electrodes extended from the second plate-shaped portion, and a difference between a first voltage applied to the first subpixel electrode and a common voltage applied to the common electrode is larger than a difference between a second voltage applied to the second subpixel electrode and the common voltage.
US10809576B2
A display panel, including: a first substrate, a second substrate, and a seal; the first substrate is provided with a first hollowed-out area, the second substrate is provided with a second hollowed-out area, and a width of the first hollowed-out area and a width of the second hollowed-out area is respectively configured to greater than a width of the seal.
US10809574B2
The present invention provides: (A) a liquid crystal alignment agent containing a polyamic acid which is a polymer of a tetracarboxylic dianhydride represented by a predetermined formula and any one of diamines represented by predetermined formulas, or a derivative of the polyamic acid; (B) a liquid crystal alignment film containing a polyimide compound represented by a predetermined formula, which is an imidization product of the polymer in the liquid crystal alignment agent; and (C) a liquid crystal display device including a pair of substrates, a liquid crystal layer held between the substrates, and the liquid crystal alignment film disposed between at least one of the substrates and the liquid crystal layer.
US10809573B2
According to one embodiment, a display device includes a first substrate, a second substrate, a sealant, a liquid crystal layer, an organic insulating film, an alignment film and an inorganic insulating film. The second substrate is opposed to the first substrate. The sealant attaches the first substrate and the second substrate to each other. The liquid crystal layer is arranged between the first substrate and the second substrate. The organic insulating film, the alignment film and the inorganic insulating film are provided on the first substrate. The alignment film contacts the liquid crystal layer. The inorganic insulating film is located between the alignment film and the organic insulating film. At least part of the alignment film contacts the organic insulating film.
US10809570B2
A method for acquiring backlight diffusion transmission parameter, a display control method and a display control device are provided. The method includes: selecting a plurality of backlight sources respectively arranged at different backlight regions of a display device and measuring a light diffusion data for each of the plurality of backlight sources, where the light diffusion data includes luminance values of a plurality of pixel points of a screen of the display device and a distance between a position of each pixel point and a position of a certain backlight source of the plurality of backlight sources in the case that only the certain backlight source is turned on; preprocessing the light diffusion data to determine effective pixel points of the plurality of pixel points; fitting the light diffusion data of the effective pixel points, to obtain a point spread function y=ƒ(x) indicating a relationship between y representing a diffusion luminance value and x representing a diffusion distance, where y representing a diffusion luminance value is a luminance value of each pixel point, and x representing a diffusion distance is a distance between a position of the each pixel point and a position of a certain backlight source of the plurality of backlight sources; and determining the point spread function y=ƒ(x) as the backlight diffusion transmission parameter.
US10809564B1
A wireless communication device has a display device and a transmitter that wirelessly transmits a wireless (e.g., NFC) signal from an antenna. The antenna is positioned such that the display device may be between the antenna and another wireless communication device that is to receive the signal, and the display device may attenuate such signal. A reflector of the display device is patterned with small gaps in order to limit the loop sizes of eddy currents that are induced by the wireless signal, thereby reducing parasitic power consumption of the reflector to the wireless signal. Thus, the presence of the gaps in the reflector improves the transparency of the display device to the wireless signal without significantly affecting the performance of the reflector in sinking heat and reflecting light.
US10809562B2
A liquid crystal display device includes a liquid crystal panel including at least a liquid crystal cell and a polarizing plate; and a backlight including at least a light source, in which the polarizing plate includes a polarizer and at least one sheet of protective film, the protective film included in the polarizing plate is positioned closest to the backlight side in the liquid crystal panel, and the protective film positioned closest to the backlight side in the liquid crystal panel is an organic solvent-soluble resin film in which an apparent shear strength measured at a surface on the backlight side is 106 MPa or greater and an apparent shear strength measured at a surface on the polarizer side is 101 MPa or less.
US10809548B2
A device, such as an electroabsorption modulator, can modulate a light intensity by controllably absorbing a selectable fraction of the light. The device can include a substrate. A waveguide positioned on the substrate can guide light. An active region positioned on the waveguide can receive guided light from the waveguide, absorb a fraction of the received light, and return a complementary fraction of the received light to the waveguide. Such absorption produces heat, mostly at an input portion of the active region. The input portion of the active region can be thermally coupled to the substrate, which can dissipate heat from the input portion, and can help avoid thermal runaway of the device. The active region can be thermally isolated from the substrate away from the input portion, which can maintain a relatively low thermal mass for the active region, and can increase efficiency when heating the active region.
US10809547B2
A silicon based electro-optically active device and method of producing the same, the device comprising: a silicon-on-insulator (SOI) waveguide; an electro-optically active stack within a cavity of the SOI waveguide; and a channel between the electro-optically active stack and the SOI waveguide; wherein the channel is filled with a filling material with a refractive index greater than that of a material forming a sidewall of the cavity to form a bridge-waveguide in the channel between the SOI waveguide and the electro-optically active stack.
US10809546B2
A system to adjust light path length utilizing a digital light path length modulator. The digital light path length modulator includes an optical path length extender (OPLE) with a plurality of polarization sensitive reflective elements and a polarization modulator. The OPLE has two light paths having different path lengths, so a light having a first polarization is directed through a first light path, and the light having a second polarization is directed through a second light path.
US10809544B2
The present invention is to provide a nose pad capable of reducing an imprint after wearing eyeglasses and pain in wearing and preventing the eyeglasses from slipping down, without dropping off from the eyeglasses, a nose pad attached to eyeglasses to come into contact with the nose so as to support the eyeglasses is provided with a base portion that is formed of an elastomer material and that includes surfaces of the pad contacting the opposed nose to come into contact therewith, attachment portions that are formed of a resin material and that are provided at opposite end portions of the backside of the surfaces of the base portion to attach to pad arms extending from the eyeglasses, and bump portions that are formed of an elastomer material and that are provided at opposite end portions of the other surface of the base portion to rise.
