21st week of 2022 patent applcation highlights part 66 |
Patent application number | Title | Published |
20220166403 | MICROELECTROMECHANICAL RESONATOR - A moveable micromachined member of a microelectromechanical system (MEMS) device includes an insulating layer disposed between first and second electrically conductive layers. First and second mechanical structures secure the moveable micromachined member to a substrate of the MEMS device and include respective first and second electrical interconnect layers coupled in series, with the first electrically conductive layer of the moveable micromachined member and each other, between first and second electrical terminals to enable conduction of a first joule-heating current from the first electrical terminal to the second electrical terminal through the first electrically conductive layer of the moveable micromachined member. | 2022-05-26 |
20220166404 | OSCILLATOR AND METHOD OF MANUFACTURING SAME - An oscillator includes a package having a plurality of external terminals disposed on a mounting surface, a circuit element housed in the package, and a resonator which is housed in the package, and is electrically coupled to the circuit element, wherein the circuit element is electrically coupled to the package with a plurality of pads each of which is bonded to the package via a bump member, the circuit element overlaps at least one of the external terminals in a plan view, and each of the bump members is bonded to the package at a position where at least a part of the bump member does not overlap the plurality of external terminals in the plan view. | 2022-05-26 |
20220166405 | Vibration Device - A vibration device includes a base including a semiconductor substrate and a through electrode passing through the portion between a first surface and a second surface of the semiconductor substrate, a vibrator placed at the side facing the first surface, and an external connection terminal provided at the side facing the second surface via an insulating layer. An oscillation circuit that is electrically coupled to the vibrator via the through electrode and generates an oscillation signal by causing the vibrator to oscillate, and an output buffer circuit that outputs a clock signal based on the oscillation signal are placed at the second surface. The clock signal from the output buffer circuit is outputted via the external connection terminal. The through electrode and the external connection terminal are arranged so as not to overlap with each other in a plan view viewed in the direction perpendicular to the first surface. | 2022-05-26 |
20220166406 | MICROELECTROMECHANICAL RESONATOR - A microelectromechanical (MEMS) resonator includes a spring-mass system having a first weight portion (M | 2022-05-26 |
20220166407 | RADIO-FREQUENCY MODULE AND COMMUNICATION DEVICE - When a radio-frequency module is viewed in plan in a thickness direction of a mounting substrate, an electronic component overlaps an IC component. The electronic component includes four or more filters, each of which includes an input terminal and an output terminal. The IC component includes a first switch connected to the input terminals of at least four of the four or more filters and a second switch connected to the output terminals of the at least four filters. The input terminals of the at least four filters are in a first region including a center of the electronic component when viewed in plan in the thickness direction of the mounting substrate. The output terminals of the at least four filters are in a second region between the first region and a perimeter of the electronic component when viewed in plan in the thickness direction of the mounting substrate. | 2022-05-26 |
20220166408 | ACOUSTIC WAVE RESONATOR RF FILTER CIRCUIT DEVICE - An RF circuit device using modified lattice, lattice, and ladder circuit topologies. The devices can include a plurality of resonator devices and a plurality of resonator devices. In the ladder topology, the resonator devices are connected in series from an input port to an output port while shunt resonator devices are coupled the nodes between the resonator devices. In the lattice topology, a top and a bottom serial configurations each includes a pair of resonator devices that are coupled to differential input and output ports. A pair of shunt resonators is cross-coupled between each pair of a top serial configuration resonator and a bottom serial configuration resonator. The modified lattice topology adds baluns or inductor devices between top and bottom nodes of the top and bottom serial configurations of the lattice configuration. These topologies may be applied using single crystal or polycrystalline bulk acoustic wave (BAW) resonators. | 2022-05-26 |
20220166409 | TRANSVERSELY-EXCITED FILM BULK ACOUSTIC RESONATORS WITH STRUCTURES TO REDUCE ACOUSTIC ENERGY LEAKAGE - Acoustic resonators, acoustic filter devices and methods of making the same. An acoustic resonator device includes a piezoelectric plate having front and back surfaces, and an interdigital transducer (IDT) on the front surface including interleaved fingers. An overlapping distance of the interleaved fingers defines an aperture of the acoustic resonator device. The device further includes a fast region between the aperture and a busbar of the IDT. The piezoelectric plate and the IDT are configured such that a radio frequency signal applied to the IDT excites a primary shear acoustic mode having a first frequency in the piezoelectric plate within a central portion of the aperture and a primary shear acoustic mode having a second frequency in the fast region. The second frequency is higher than the first frequency | 2022-05-26 |
20220166410 | FILTER WITH MULTIPLE OUTPUTS OR INPUTS TO IMPLEMENT MULTIPLE FILTER FREQUENCY RESPONSES - A filter is provided that includes a set of cascaded resonator stages coupled between a filter input and a first filter output, wherein the filter includes a second filter output coupled to an output of a first or an intermediate one of the set of cascaded resonator stages. Another filter includes a set of cascaded resonator stages coupled between a first filter input and a filter output, wherein the filter includes a second filter input coupled to an input of an intermediate or a last one of the set of cascaded resonator stages. Both filters are configured to apply a first filter frequency response to a first signal propagating via the set of cascaded resonator stages, and apply a second filter frequency response to a second signal propagating via a subset of one or more of the set of cascaded resonator stages. | 2022-05-26 |
20220166411 | TERMINATION IMPEDANCE ISOLATION FOR DIFFERENTIAL TRANSMISSION AND RELATED SYSTEMS, METHODS AND APPARATUSES - Disclosed examples include an apparatus. The apparatus may include a differential signal path portion, a first circuit, and a second circuit. The first circuit may be arranged at the differential signal path portion to set a differential impedance of the differential signal path portion. The second circuit may be arranged outside of the differential signal path portion to set a common-mode impedance of the differential signal path portion lower than the differential impedance. | 2022-05-26 |
20220166412 | Method and circuit for monitoring and controlling duty margin of a signal - A duty margin monitoring circuit, coupled to a functional circuit which generates a first output signal in response to a target signal, includes a modulation circuit, a replica circuit and an error detection circuit. The modulation circuit is arranged to receive the target signal and modulate the target signal to generate a modulated target signal. The replica circuit is arranged to receive the modulated target signal and generate a second output signal in response to the modulated target signal. The error detection circuit is coupled to the functional circuit and the replica circuit to receive the first output signal and the second output signal and arranged to generate an error detection result according to the first output signal and the second output signal. | 2022-05-26 |
20220166413 | COMPARATOR SET-RESET LATCH CIRCUIT AND METHOD FOR CAPACITIVELY STORING BITS - A circuit and method for storing bit values in capacitors of a set-reset latch of a dynamic comparator are described. A capacitor-based SR latch architecture is disclosed that makes use of the parasitic capacitances present at its output to store a digital bit value. During the comparator's sampling phase, the capacitor-based SR latch behaves as an inverter and buffers the sampled value to the output of the SR latch. In doing so, it charges the parasitic capacitors associated with the routing and downstream circuitry up or down. When the dynamic comparator enters the reset phase, the SR latch turns off and makes use of the of the parasitic capacitors to hold the previously-buffered value. | 2022-05-26 |
20220166414 | Gated Ring Oscillator with Constant Dynamic Power Consumption - A pure digital ring oscillator with constant power consumption as oscillation frequency is adjusted. Circuit topology includes a multiplexer implemented in NAND gates and a delay element positioned after a path selection NAND gate of that multiplexer such that delay element transistors may not toggle if the non-delaying signal path is selected. Assuming a delay element oscillation frequency f and a total capacitance C, and also assuming a plurality N of delay gates each characterized by a propagation delay t1 and a capacitance C1 such that C=C1*N, the ring oscillator of the present invention is characterized by a C value that is proportional to N and an f value that is inversely proportional to N. Furthermore, each of the N delay gates as well as the input and output gates of the multiplexer are characterized by a common capacitance-to-propagation delay ratio=C1/t1. | 2022-05-26 |
20220166415 | OSCILLATOR - Series of first ramps and second ramps are generated. A circuit delivers a first signal representative of the comparison of each first ramp with a set point and delivers a second signal representative of the comparison of each second ramp with the set point. Based on the first and second signals: a first ramp is stopped and a second ramp is started when the first ramp reaches the set point, and a second ramp is stopped and a first ramp is started when the second ramp reaches the set point. The value of the set point is modulated in response a maximum value of the first/second last ramp compared with the set point. | 2022-05-26 |
20220166416 | CONTROL CIRCUIT AND DELAY CIRCUIT - A control circuit and a delay circuit are provided. The control circuit includes a control unit and a feedback unit. The feedback unit is configured to output a feedback signal according to a voltage of the control unit and a reference voltage; a first terminal of the feedback unit is connected to a first terminal of the control unit, a second terminal of the feedback unit serves as an input terminal of the reference voltage, and an output terminal of the feedback unit is connected to a second terminal of the control unit. The control unit is configured to adjust a voltage of the second terminal of the control unit according to the feedback signal, so as to allow a current variation of the control unit with a first parameter to be within a first range. | 2022-05-26 |
20220166417 | GLITCH FILTER SYSTEM - One example includes a glitch filter system. The system includes an input stage to receive an input signal, a first output to provide a first digital signal, and a second output to provide a second digital signal. A C-element receives the first digital signal and the second digital signal and provides a third digital signal at a first logic state in response to each of the first and second digital signals having a second logic state opposite the first logic state. An output latch provides an output signal at the second logic state in response to the first logic state of the third digital. The output latch also receives the first and second digital signals to maintain the first logic state of the third digital signal in response to one of the first and second digital signals changing from the second logic state to the first logic state. | 2022-05-26 |
20220166418 | Noise-Tolerant Delay Circuit - In a delay circuit, first and second sets of transistors are connected in series between a supply voltage and a ground. The first and second sets of transistors both include a current source transistor, a cascode transistor, and a control transistor. The first set of transistors generates a current that charges a capacitor to generate a ramp signal with a positive slope. A first bias transistor may cause the ramp signal to be biased to ground upon activating the first set of transistors. The second set of transistors generates a current that discharges the capacitor to generate the ramp signal with a negative slope. A second bias transistor may cause the ramp signal to be biased to the supply voltage upon activating the second set of transistors. The delay circuit transitions the state of the output signal based on a voltage level of the ramp signal. | 2022-05-26 |
20220166419 | COMPARATOR ARCHITECTURE FOR REDUCED DELAY AND LOWER STATIC CURRENT - Described embodiments include a comparator circuit comprising an input voltage terminal, a reference voltage terminal, and a rising edge decode circuit having inputs coupled to the input voltage terminal and the reference voltage terminal. The rising edge output provides a rising edge decode signal indicating the input signal transitioned from being smaller than the reference voltage signal to being larger than the reference voltage signal. A falling edge decode circuit has inputs coupled to the input voltage terminal and the reference voltage terminal, and a falling edge output providing a falling edge decode signal indicating that the input signal transitioned from being larger than the reference voltage signal to being smaller than the reference voltage signal. Also, a decode logic circuit provides a comparator output in response to the rising edge decode signal and the falling edge decode signal. | 2022-05-26 |
20220166420 | A METHOD AND DEVICE FOR ADJUSTING THE SWITCHING SPEED OF A MOSFET - A method and device for adjusting the switching speed of a MOSFET are disclosed. The MOSFET is connected to drive switch, the collector of the drive switch is connected to the grid of the MOSFET through the grid resistor, the emitter of the drive switch is grounded through the emitter resistor, and the collector of the drive switch is also connected to the source resistor through the collector resistor, the other end of the source resistor is connected to the source of the MOSFET; the drain of the MOSFET is connected to the current source. The method comprises: obtaining the adjustment target of the switching speed for the MOSFET, determining the first resistance value of the emitter resistor and/or the second resistance value of the collector resistor based on said adjustment target, controlling the operation of the MOSFET according to the adjusted resistance value. | 2022-05-26 |
20220166421 | METHOD AND SYSTEM FOR SHORT TO GROUND PROTECTION FOR A CIRCUIT INCLUDING A FET DEVICE - A diagnostic circuit for an electronic control unit comprises a field-effect transistor device, a comparator circuit, and a microprocessor. The diagnostic circuit detects a short to ground detection and turns off the field-effect transistor device. The diagnostic circuit may include redundant or dual short to ground protection for a field-effect transistor device. The comparator circuit generates an interrupt signal based on comparing a sensed parameter of an output signal of the field-effect transistor device to a threshold value. The microprocessor samples output from the field-effect transistor device and compares the sampled output to a power limit threshold. The microprocessor turns off the field-effect transistor device based on receiving the interrupt signal or comparison of the sampled output to the power limit threshold. Detection or prevention of a short to ground protects the field-effect transistor device. | 2022-05-26 |
20220166422 | Smart Electronic Switch - In accordance with an embodiment, a circuit for driving an electronic switch includes a control circuit configured to trigger a switch-on and a switch-off of the electronic switch in accordance with an input signal, wherein the control circuit is further configured to trigger the switch-off of the electronic switch in response to an under-voltage signal signaling an under-voltage state; and an under-voltage detection circuit configured to signal the under-voltage state when a supply voltage received at a supply node is below an under-voltage threshold value, wherein the under-voltage threshold value depends on a load current passing through the electronic switch. | 2022-05-26 |
20220166423 | HEAT DISSIPATION FOR POWER SWITCHES - Systems, methods, techniques and apparatuses of power switches are disclosed. One exemplary embodiment is a power switch comprising an outer housing; a power electronics board disposed within the housing and including a semiconductor switch structured to selectively conduct a current between a first power terminal and a second power terminal; a first heat sink coupled to the power electronics board; a plurality of thermally conductive connectors; a second heat sink coupled to the plurality of thermally conductive connectors, a control electronics board structured to control the semiconductor switch, the control electronics board being located within an enclosure formed of the second heat sink, the plurality of thermally conductive connectors, and the power electronics board. | 2022-05-26 |
20220166424 | POWER SWITCH CIRCUIT WITH CURRENT SENSING - A power switch circuit with current sensing is disclosed. The power switch circuit is coupled between an input voltage and an output terminal. The power switch circuit includes a power switch, a first sensing switch, an adjusting circuit and a second sensing switch. The power switch is coupled to the input voltage. The first sensing switch is coupled in series between the power switch and the output terminal. There is a first node between the first sensing switch and the power switch. The adjusting circuit is coupled to the first node. The second sensing switch is coupled between the adjusting circuit and the output terminal. A control terminal of the power switch is coupled to a first control voltage. Control terminals of the first sensing switch and the second sensing switch are coupled to a second control voltage. The second control voltage is different from the first control voltage. | 2022-05-26 |
20220166425 | Load Switch Including Back-to-Back Connected Transistors - An apparatus includes a first drain/source region and a second drain/source region over a substrate, and a first gate adjacent to the first drain/source region and a second gate adjacent to the second drain/source region, wherein the first gate and the second gate are separated from each other, wherein the first drain/source region, the second drain/source region, the first gate and the second gate form two back-to-back connected transistors. | 2022-05-26 |
20220166426 | Load Switch Including Back-to-Back Connected Transistors - An apparatus includes a first drain/source region and a second drain/source region over a substrate, and a first gate adjacent to the first drain/source region, a second gate adjacent to the second drain/source region and a third gate between the first gate and the second gate, wherein the first drain/source region, the second drain/source region, the first gate, the second gate and the third gate form two back-to-back connected transistors. | 2022-05-26 |
20220166427 | LOW POWER CLOCK GATING CELL AND AN INTEGRATED CIRCUIT INCLUDING THE SAME - A clock gating cell including: a first circuit configured to receive an enable signal and an inverted output clock signal and generate a first signal through a first node; a second circuit configured to receive the first signal and generate an inverted first signal; a third circuit configured to receive the first signal, the inverted first signal, and an input clock signal, generate the first signal by being connected to the first circuit through the first node, and generate the inverted output clock signal through a second node; and a fourth circuit configured to receive the first signal, generate the inverted output clock signal by being connected to the third circuit through the second node, and generate the output clock signal, wherein the third circuit includes a pair of transistors receiving the input clock signal. | 2022-05-26 |
20220166428 | SEMICONDUCTOR INTEGRATED CIRCUIT - According to one embodiment, a semiconductor integrated circuit includes the following configuration. A first transistor has a source and a gate coupled to first and second voltage nodes respectively. A second transistor has a source and a gate coupled to third and second voltage nodes respectively. A third transistor is coupled between the first and second transistors. A fourth transistor has a source coupled to the first voltage node and a gate coupled to a first output node between the second and third transistors. A fifth transistor has a source coupled to the third voltage node, a gate coupled to the gate of the fourth transistor and a drain coupled to a drain of the fourth transistor. A sixth transistor has a gate supplied with a voltage output from a second output node between the fourth and fifth transistors and a source coupled to the first voltage node. | 2022-05-26 |
20220166429 | MULTIPLEXER AND SEMICONDUCTOR DEVICE INCLUDING THE SAME - A multiplexer includes a charging circuit; a plurality of sampling switches receiving a plurality of input signals; and a plurality of boosting circuits connected between the sampling switches and the charging circuit and sharing the charging circuit. First and second charging switches of the charging circuit are controlled by a first clock signal. Each of the boosting circuits includes a first boosting switch connected to a first node of the charging circuit and a gate of one of the sampling switches, a second boosting switch connected between a second node of the charging circuit and the one sampling switch, and a level shifter configured to control the first boosting switch and the second boosting switch in response to a second clock signal and a selection signal. | 2022-05-26 |
20220166430 | TECHNIQUES FOR MULTIPLE SIGNAL FAN-OUT - Techniques are provided for fanning out a signal from a balun. In various aspects, the system can include a balun configured to receive a signal for transmission at an input and to provide a representation of the signal at an output, a plurality of pass gate circuits, each pass gate circuit configured to receive the representation of the signal at a first node, to receive a control signal at a second node to pass the representation of the signal to a third node when the control signal is in a first state, and to isolate the representation of the signal from the third node when the control signal is in a second state. The first state of the control signal can include a non-zero voltage, and the second state of the control signal can include the non-zero voltage with a polarity opposite the non-zero voltage of the first state. | 2022-05-26 |
20220166431 | METHOD FOR MITIGATION OF DROOP TIMING ERRORS INCLUDING A DROOP DETECTOR AND DUAL MODE LOGIC - A technique to mitigate timing errors induced by power supply droops includes an inverter-based droop detector as well as Dual Mode Logic (DML) to achieve a droop-resist ant timing response. The droop detector is based on capacitor ratios and is thus less sensitive to Process/Voltage/Temperature (PVT) and to random offset than the prior art. The DML can alter its power/performance ratio based on the droop level input it receives from the detector, such that the critical timings are preserved. | 2022-05-26 |
20220166432 | COMPLEMENTARY DEPLETION MODE LOGIC - Disclosed is a semiconductor logic element including a field effect transistor of the first conductivity type and a field effect transistor of the second conductivity type. A gate of the first FET is an input of the semiconductor logic element, a drain of the second FET is referred to as the output of the semiconductor logic element and a source of the second FET is the source of the semiconductor logic element. By applying applicable potentials to the terminals of the field effect transistors it is possible to influence the state of the output of the logic element. Also disclosed are different kinds of logic circuitries including the described logic element. | 2022-05-26 |
20220166433 | MULTI-BIT GRAY CODE GENERATION CIRCUIT - A multi-bit gray code generation circuit includes: a zeroth bit gray code generation circuit configured to generate a gray code corresponding to a bit | 2022-05-26 |
20220166434 | DATA-DRIVEN PHASE DETECTOR ELEMENT FOR PHASE LOCKED LOOPS - Generating a composite interpolated phase-error signal for clock phase adjustment of a local oscillator by forming a summation of weighted phase-error signals generated using a matrix of partial phase comparators, each of which compare a phase of the local oscillator with a corresponding phase of a reference clock. | 2022-05-26 |
20220166435 | PULSE WIDTH MODULATOR WITH REDUCED PULSE WIDTH - An integrated circuit includes a pulse width modulator. The pulse width modulator includes a multiplexer that receives a plurality of data delay signals. Each of the data delay signals is based on a data signal and a respective clock phase signal. The multiplexer includes a first multiplexer stage and a second multiplexer stage. The first multiplexer stage receives all of the data delay signals and has a relatively large delay. The second multiplexer stage receives to output signals from the first multiplexer stage and has a relatively small delay. The second multiplexer stage outputs a pulse width modulation signal that can have a pulse width corresponding to the offset between two adjacent clock phase signals. | 2022-05-26 |
20220166436 | Clock Phase-Shifting Techniques - Various implementations described herein are related to a device. The device may include first circuitry that receives a clock signal and provides one or more phase-shifted pulse signals based on the clock signal. The device may include second circuitry that receives an input voltage, receives the clock signal, and provides an internal control signal based on the input voltage and the clock signal. The device may include third circuitry that receives the internal control signal, receives the one or more phase-shifted pulse signals, and provides an output clock signal based on the internal control signal and the one or more phase-shifted pulse signals. | 2022-05-26 |
20220166437 | PHASE CORRECTING DEVICE, DISTANCE MEASURING DEVICE, PHASE FLUCTUATION DETECTING DEVICE AND PHASE CORRECTION METHOD - A phase correcting device includes a local oscillator that includes an all digital phase-locked loop configured to output a local oscillation signal, a first phase detector configured to detect a phase of the local oscillation signal to output the phase of the local oscillation signal, a reference phase device configured to generate a quasi-reference phase corresponding to a reference phase of the local oscillation signal to output the quasi-reference phase, based on a reference clock, a second phase detector configured to detect a fluctuation amount of a phase of the local oscillator, based on the phase detected by the first phase detector and the quasi-reference phase, and a correction circuit configured to correct the phase of the inputted signal by using a detection result of the second phase detector. | 2022-05-26 |
20220166438 | ANALOG-STOCHASTIC CONVERTER FOR CONVERTING ANALOG SIGNAL INTO PROBABILITY SIGNAL BASED ON THRESHOLD SWITCHING ELEMENT - There is provided an analog-stochastic converter for converting an analog voltage signal into a pulse signal having a corresponding probability. The analog-stochastic converter is implemented using a threshold switching element and a simple logic circuit, thereby reducing a size of the analog-stochastic converter and enabling a low power operation thereof. In addition, in order to update a weight, instead of an analog signal, a probability signal is applied using the above-described analog-stochastic converter, thereby updating a weight in a fully-parallel manner in a synaptic element array having an intersection structure. Accordingly, it is possible to shorten a time for weight update. | 2022-05-26 |
20220166439 | ANALOG TO DIGITAL CONVERSION APPARATUS FOR PROVIDING DIGITAL VALUE TO DRIVER - An analog-digital conversion apparatus includes: an analog-digital converter (ADC) included in an integrated circuit (IC) and configured to operate based on a sampling clock constituting a portion of a plurality of clocks; and a driver included in the IC and configured to operate based on another portion of the plurality of clocks, and produce a driving signal based on a digital value output from the ADC. The ADC and the driver are synchronized with each other based on an interrupt request (Irq) of the IC. | 2022-05-26 |
20220166440 | Configuration of ADC Data Rates Across Multiple Physical Channels - An integrated circuit includes a set of N unit analog-to-digital converters (ADCs) having a common architecture, and which provide an aggregate data rate. Moreover, the integrated circuit includes control logic that selects subsets of the set of N unit ADCs in order to realize sub-ADCs of different data rates that can each be an arbitrary integer multiple of an inverse of N times the aggregate data rate of the N unit ADCs. Furthermore, the control logic may dynamically select the subsets on the fly or on a frame-by-frame basis. This dynamically selection may occur at boot time and/or a runtime. Additionally, the given different data rate may correspond to one or more phases of a multi-phase clock in the integrated circuit, where the multiphase clock may include a number of phases corresponding to a number of possible subsets, and given selected subsets may not use all of the available phases. | 2022-05-26 |
20220166441 | LOW POWER MODULATOR WITH VCO QUANTIZER - Disclosed is a low power modulator with a VCO quantizer. The low power modulator with the VCO quantizer may include an integrator converting an input current to a voltage, a quantizer converting the converted voltage to digital information, a filter unit filtering the converted digital information, a DAC converting the filtered digital information into a feedback current, and a controller calculating the digital information output based on a difference value between the input current and the feedback current for each sampling time. | 2022-05-26 |
20220166442 | DEVICES AND SYSTEMS FOR ANALOG-TO-DIGITAL CONVERSION - An analog-to-digital device includes a sampling circuit for sampling an input signal. The sampling circuit stops sampling in response to obtaining a trigger signal. The analog-to-digital device includes an analog-to-digital converter circuit which includes an analog to digital converter (ADC) for converting a sampled input provided from the sampling circuit to digital output. | 2022-05-26 |
20220166443 | SEMICONDUCTOR DEVICE - A semiconductor device performs sequential comparison of an analog input signal and a reference voltage to digitally convert the analog input signal. The semiconductor device includes an upper DAC generating a high-voltage region of the reference voltage based on a predetermined code, a lower DAC generating a low-voltage region of the reference voltage based on the code, and an injection DAC having the same configuration as that of the lower DAC and adjusting the low-voltage region of the reference voltage. | 2022-05-26 |
20220166444 | METHOD AND APPARATUS FOR COMPRESSING WEIGHTS OF NEURAL NETWORK - A method of compressing weights of a neural network includes compressing a weight set including the weights of a the neural network, determining modified weight sets by changing at least one of the weights, calculating compression efficiency values for the determined modified weight sets based on a result of compressing the weight set and results of compressing the determined modified weight sets, determining a target weight of the weights satisfying a compression efficiency condition among the weights based on the calculated compression efficiency values, and determining a final compression result by compressing the weights based on a result of replacing the determined target weight. | 2022-05-26 |
20220166445 | PROCESSING-IN-MEMORY INSTRUCTION SET WITH HOMOMORPHIC ERROR CORRECTION - A method includes generating an ECC encoded output data by executing an ECC-Space operation using an ECC encoded first data from a memory as a first operand and an ECC encoded second data from the memory as a second operand. The ECC-Space operation is translated from a two operands operation of a first processor and the two operands operation is operative to transform the first data and the second data into a third data. The method also includes storing the ECC encoded output data to the memory. The ECC encoded output data is identical to a result of encoding the third data with the ECC algorithm if the third data is encoded with the ECC. | 2022-05-26 |
20220166446 | TRELLIS BASED RECONSTRUCTION ALGORITHMS AND INNER CODES FOR DNA DATA STORAGE - Techniques for achieving reductions in cost of encoding and decoding operations used in DNA data storage systems to facilitate reducing errors in those encoding and decoding operations while accounting for a code structure used during the encoding and decoding by constructing and using insertion-deletion-substitution (IDS) trellises for multiple traces are disclosed. A DNA sequencing channel is used to randomly sample and sequence DNA strands to generate noisy traces. Multiple trellises are independently constructed for each respective noisy trace. A forward-backward algorithm is run on each trellis to compute posterior marginal probabilities for vertices included in each trellises. An estimate of the data message sequence is then computed. | 2022-05-26 |
20220166447 | OUT-OF-BAND NOISE OPTIMIZATION FOR DUAL-BAND FRONT-END MODULES - Aspects of the disclosure include a multi-band radio system comprising a first wireless-communication channel having a first antenna to transmit and receive first wireless signals, and a second wireless communication channel having a second antenna to transmit and receive second wireless signals, a power amplifier to amplify the second wireless signals, and a matching network to control a phase angle of the second wireless signals between the second antenna and the power amplifier. | 2022-05-26 |
20220166448 | COMMUNICATION DEVICE - A communication device according to the present disclosure includes a housing and at least one antenna component. The housing includes at least one metal portion used as an antenna that performs wireless communication in a first frequency band, and a transmission portion fixed to the metal portion and capable of transmitting radio waves. The metal portion is located at least at an end portion of the housing in a first direction. The antenna component is used for wireless communication in a second frequency band, and is covered with the transmission portion. | 2022-05-26 |
20220166449 | BIDIRECTIONAL IMAGE-REJECTION ACTIVE ARRAY WITH REDUCED LO REQUIREMENT - An RF frontend integrated circuit (IC) device comprises one or more RF transceivers to transmit and receive RF signals within a first frequency band and a second frequency band that is higher than the first frequency band. The RF frontend IC device further comprises a bidirectional LO signal generation circuit coupled to the one or more transceivers to generate a bidirectional LO signal. The bidirectional LO signal is injected between the first frequency band and the second frequency band. The bidirectional LO signal generation circuit is to perform a high-side LO injection for the RF signals within the first frequency band by injecting the bidirectional LO signal having an LO frequency higher than the first frequency band and to perform a low-side LO injection for the RF signals within the second frequency band by injecting the bidirectional LO signal having the LO frequency lower than the second frequency band. | 2022-05-26 |
20220166450 | Cross-Communication Between Wireless Devices With Multiple Antennas - Systems, methods, and apparatuses, including electronic devices and computer-readable storage media, for adaptively switching wireless connections between antennas of a wearable electronic device and a host electronic device. One device includes a wearable electronic device with a first and second housing, each housing including two or more antennas. The wearable electronic device is configured to establish and monitor a wireless cross-link between two antennas in different housings, or between antennas in one housing and antennas of a host electronic device. The wearable electronic device can monitor the integrity of the wireless cross-link, and establish an updated cross-link in response to the wireless cross-link not meeting a predetermined integrity threshold. The wearable electronic device can monitor a wireless cross-head link between housings of a wearable electronic device at the same time as a wireless cross-body link between the wearable electronic device and the host electronic device. | 2022-05-26 |
20220166451 | DUOBINARY RECEIVER FOR RECEIVING A DUOBINARY SIGNAL - A duobinary receiver includes a signal dividing circuit configured to output a plurality of data by dividing an input signal according to a plurality of multi-phase sampling clocks signals; a level detecting circuit configured to output a plurality of state signals respectively corresponding to duobinary levels of the plurality of data; and a data converting circuit configured to decode the plurality of state signals to output a corresponding plurality of bits. | 2022-05-26 |
20220166452 | SMART MAX POWER CONTROL TO MITIGATE EXCESSIVE RADIATED POWER - In an exemplary embodiment, a vehicle is provided that includes an antenna and a telematics system. The telematics system is configured to be coupled to the antenna, and includes a processor that is configured to at least facilitate: determining whether power to an antenna of the vehicle would result in radiated power emissions that would exceed a regulatory requirement; and reducing power to the antenna when it is determined that the power to the antenna would result in radiated power emissions that would exceed the regulatory requirement. | 2022-05-26 |
20220166453 | TRIPLE-BAND TRIGGER TOOL FOR TIRE-PRESSURE MONITORING SYSTEM - A triple-band trigger tool for a tire-pressure monitoring system is disclosed. The tool body includes a 315 MHz transceiver circuit and a 315 MHz antenna electrically connected to each other, and the 315 MHz transceiver circuit is electrically connected to a control unit; the tool body also includes a 433 MHz transceiver circuit and a 433 MHz antenna electrically connected to each other, and the 433 MHz transceiver circuit is electrically connected to the control unit; the tool body also includes a Bluetooth transceiver circuit and a Bluetooth antenna electrically connected to each other, and the Bluetooth transceiver circuit is electrically connected to the control unit. Therefore, the triple-band trigger is able to perform a firmware programming operation on a TPMS sensor at 315 MHz, 434 MHz or Bluetooth frequency band. | 2022-05-26 |
20220166454 | AUTOMATED RADIO FREQUENCY SAFETY AND COMPLIANCE FOR 5G NETWORK SYSTEMS - Automated radio frequency safety and compliance for 5G network systems. In an embodiment, a database comprises, for each of a plurality of sites, data representing relative locations of transmitter(s), including at least one 5G antenna, that emit radio frequency (RF) radiation at the site. For at least one of the sites, a power density caused by the transmitter(s) is calculated for one or more areas of the site. In addition, a maximum permissible exposure (MPE) map of the site is generated. The MPE map may comprise a graphical representation of each transmitter, and graphically distinguish any area of the site for which the calculated power density exceeds at least one limit. | 2022-05-26 |
20220166455 | Accessory for Electronic Device - Disclosed is an accessory for an electronic device, which is attached to the rear surface of an electronic device or an electronic device case. A first embodiment includes a cone having an empty space therein, a wrinkle part formed on a body thereof, and an upper portion and a lower portion that are open, an inverted cone having an empty space therein, a wrinkle part formed on a body thereof, an upper portion that is open, and a lower portion having a protrusion extending therefrom, the protrusion being composed of a neck part and a head part, a clamping ring, which is positioned inside the cone and coupled to the neck part of the protrusion in a state in which the protrusion is inserted into an upper opening of the cone, and a neck cylinder for surrounding the neck part of the protrusion. | 2022-05-26 |
20220166456 | Outer Case For A Foldable Mobile Device - A foldable case is configured for removably receiving a separate and distinct mobile electronic device having a front device surface, a rear device surface opposite the front device surface, and a periphery extending between the front device surface and the rear device surface. The case includes first and second cover members and opposing hinge members. The first and second cover members include respective first and second rear walls, respective first and second peripheral rims, and respective first and second sidewalls extending between the respective rear walls and the respective peripheral rims and thereby define respective first and second recesses configured for receiving respective first and second portions of the device. The opposing hinge members each extend between adjacent locations at the respective peripheral rims of the first and the second cover members to hingedly connect the first and the second cover members. | 2022-05-26 |
20220166457 | SIGNAL RECEIVER AND SIGNAL TRANSCEIVER - A signal receiver and a signal transceiver are provided, which may avoid unnecessary leakage current. The signal receiver includes a termination switch pair, a first resistor, a second resistor, and a pull-down circuit. The termination switch pair receives an operation power supply. The termination switch pair has a common control end. The first resistor is coupled between a first signal input end and the common control end. The second resistor is coupled between a second signal input end and the common control end. The pull-down circuit is coupled between the common control end and a reference voltage end. The pull-down circuit determines whether to pull down a first control voltage on the common control end to a reference voltage according to a power-on state or a power-off state of the signal receiver. | 2022-05-26 |
20220166458 | LOCAL OSCILLATOR SYNCHRONIZATION FOR COHERENT PHASED-ARRAY SYSTEM - Aspects of the subject disclosure may include, for example, generating multiple digital reference pulses synchronously to a master oscillator, selectively switching the multiple digital reference pulses, and providing the switched pulses to multiple radio modules operating within a millimeter wave spectrum. For each radio module, counting cycles of an adjustable LO output signal occurring between consecutive pulses of the switched digital reference pulses, determining a difference between the count value and a reference value, and adjusting the adjustable LO according to the difference. A resulting corrected LO signal is synchronized to the master oscillator. Other embodiments are disclosed. | 2022-05-26 |
20220166459 | METHODS AND APPARATUS FOR COORDINATED UTILIZATION OF QUASI-LICENSED WIRELESS SPECTRUM - Methods and apparatus for providing quasi-licensed spectrum access within a prescribed area or venue, including to users or subscribers of one or more Mobile Network Operators (MNOs). In one embodiment, the quasi-licensed spectrum utilizes 3.5 GHz CBRS (Citizens Broadband Radio Service) spectrum allocated by a Federal or commercial SAS (Spectrum Access System) to a managed content delivery network that includes one or more wireless access nodes (e.g., CBSDs) in data communication with a controller, and the core(s) of the MNO network(s). In one variant, the controller dynamically allocates (i) spectrum within the area or venue within CBRS bands, and (ii) MNO “roaming” users or subscribers to CBRS bands (e.g., via extant LTE-TD technology). In one particular implementation, the managed network comprises a Multiple Systems Operator (MSO) network such as a cable or satellite network, and the MSO and MNO coordinate to implement user-specific and/or data-specific policies for the roaming MNO subscribers. | 2022-05-26 |
20220166460 | METHOD AND APPARATUS FOR HANDLING RADIO LINK FAILURE ON UNLICENSED FREQUENCY IN A WIRELESS COMMUNICATION SYSTEM - A method and apparatus for handling radio link failure on unlicensed frequency in a wireless communication system is provided. A wireless device performs Listen Before Talk (LBT) procedure on a serving cell on an unlicensed frequency. A wireless device detects consecutive failures of the LBT procedure on the serving cell. A wireless device bars all cells on the unlicensed frequency for a certain period time. | 2022-05-26 |
20220166461 | Automotive physical layer (PHY) cable fault diagnosis - Methods and systems provide for using echo measurements, to detect cable faults in cables of vehicular communication networks. | 2022-05-26 |
20220166462 | CONNECTOR PROVIDING A CONNECTION THROUGH A FLEXIBLE BARRIER - The present invention relates to a connector for connection through a flexible barrier. The connector comprises at least a device pad and at least a landing pad. The device pad is arranged in close proximity to the landing pad for contactless connection through the flexible barrier to transmit and/or receive data and/or power between each other. The device pad and the landing pad are configured to attach and/or align to each other. Furthermore, a system for connection through a flexible barrier, an according method, computer program element and computer readable medium are provided. | 2022-05-26 |
20220166463 | PHASE VALUE DETERMINATION FOR AN NFC CARD EMULATING DEVICE UTILIZING ACTIVE LOAD MODULATION - There is described a method of determining a phase value for an NFC card emulating device that enables said NFC card emulating device to communicate in phase with an NFC reader device while utilizing active load modulation, wherein the NFC card emulating device comprises a card antenna and the NFC reader device comprises a reader antenna, the method comprising receiving a reader signal from the NFC reader device at the NFC card emulating device through coupling of the card antenna and the reader antenna, the reader signal comprising a subcarrier modulation; estimating a resonance frequency of a system corresponding to the coupled card antenna and reader antenna based on the received communication signal; and determining the phase value based on the estimated resonance frequency and a set of parameters that represents a predetermined reference system. Furthermore, an NFC card emulating device, an NFC system, and a computer program are described. | 2022-05-26 |
20220166464 | TRANSMISSION OF REFERENCE SIGNALS FROM A TERMINAL DEVICE - There is provided mechanisms for transmission of reference signals. A method is performed by a terminal device. The terminal device comprises at least two physical antenna ports. The method comprises creating a virtual antenna port for, and applied over, at least two of the physical antenna ports. The method comprises transmitting, in the virtual antenna port, as many uplink reference signals as there are physical antenna ports. | 2022-05-26 |
20220166465 | METHOD AND APPARATUS FOR MULTI-OBJECTIVE BEAM MANAGEMENT - An electronic device and methods for performing beam management in the electronic device are disclosed herein. An electronic device performing beam management comprises a plurality of antenna modules and a processor. The processor is configured to determine at least two objectives for beam management of the plurality of antenna modules, select at least one parameter for the beam management based on the determined at least two objectives, and perform the beam management on the plurality of antenna modules based on the selected at least one parameter. | 2022-05-26 |
20220166466 | ANTENNA SWITCH SCHEDULING - Methods, systems, and devices for wireless communication are described. A multi-antenna user equipment (UE) may communicate with a base station using a first antenna, determine to switch from the first antenna to a second antenna for communicating with the base station, determine a silence window in which communication with the base station is suspended, schedule the switch from the first antenna to the second antenna to occur during the silence window, and switch from the first antenna to the second antenna during the silence window. | 2022-05-26 |
20220166467 | METHODS AND SYSTEMS FOR DETERMINING DOWNLINK DATA MODE - Aspects of this disclosure relate to user equipment assisted multiple-input multiple-output (MIMO) downlink configuration. Features are described for a user equipment determination of a desired transmission mode and/or active set of serving nodes for wireless communication service(s). The user equipment may submit a request for the desired mode and/or nodes to a network controller such as a baseband unit. The user equipment may subsequently receive a configuration for the requested wireless communication service(s). | 2022-05-26 |
20220166468 | APPARATUS AND METHOD FOR REPORTING CHANNEL STATE INFORMATION IN WIRELESS COMMUNICATION SYSTEM - A method for reporting channel state information (CSI) performed by a UE in a wireless communication system according to an embodiment of the present disclosure includes transmitting UE capability information related to a plurality of panels, receiving configuration information related to reporting of CSI, receiving a downlink reference signal (DL RS) based on the configuration information, and transmitting CSI related to a measurement result for the DL RS. | 2022-05-26 |
20220166469 | Channel State Information for Reference Signals in a Wireless Communication System - According to some embodiments, a method is performed by a user equipment for reporting channel state information. The user equipment is configured with two or more channel state information reference signal, CSI-RS, resources in a CSI-RS resource set. The method comprises: selecting at least two CSI-RS resources from the CSI-RS resource set, wherein each of the at least two selected CSI-RS resources are associated to a set of spatially multiplexed layers, wherein different sets comprise different layers; determining a preferred precoder matrix for the selected CSI-RS resources; and transmitting a CSI report indicating the selected CSI-RS resources and the preferred precoder matrices. The method may further comprise calculating a channel estimate for the selected CSI-RS resources, and determining a channel quality indicator, CQI, corresponding to a hypothetical transmission from a plurality of effective channels where layers transmitted through the effective channels mutually interfere. The CSI report may indicate the determined CQI for the selected CSI-RS resources. | 2022-05-26 |
20220166470 | MIMO CHANNEL ACCESS - Methods and apparatuses for multiple input-multiple output (MIMO) channel access are provided herein. A method performed by a station may include receiving, from an access point (AP), a frame including information indicating a broadcast address. The frame may further include a control trailer including information indicating that a multi-user multiple input-multiple output (MU-MIMO) frame is to be transmitted by the AP and information indicative of a designation of a plurality of STAs, the plurality of STAs including the STA. The frame may solicit response frames from at least the designated plurality of STAs. The method may further include transmitting a response frame to the indicated broadcast address and receiving the MU-MIMO frame from the AP. | 2022-05-26 |
20220166471 | SUPPORTING DISTRIBUTED MASSIVE MULTIPLE-INPUT MULTIPLE-OUTPUT (DM-MIMO) IN A DISTRIBUTED COMMUNICATIONS SYSTEM (DCS) - Supporting distributed massive multiple-input multiple-output (DM-MIMO) in a distributed communications system (DCS) is disclosed. The DCS includes multiple remote units each configured to communicate downlink and uplink radio frequency (RF) communications signals with a number of user equipment (UEs) at different UE locations in the DCS. Each remote unit includes multiple antennas, multiple RF chains, and an RF switch circuit configured to dynamically couple the RF chains to a subset of antennas in accordance to the UE locations such that the subset of antennas can be activated to concurrently radiate the downlink RF communications signals and absorb the uplink RF communications signals. By dynamically activating the subset of antennas in accordance to the UE locations, it is possible to optimize signal strength and channel quality for each UE in the DCS, thus making it possible to improve wireless data capacity of the DCS with negligible additional hardware cost. | 2022-05-26 |
20220166472 | TECHNIQUES FOR INDICATING PREFERRED BEAMS IN MULTI-TRANSMISSION AND RECEPTION POINT (MULTI-TRP) SYSTEMS BASED ON DEFAULT OPERATING FREQUENCY (DOF) MISMATCH - This disclosure provides systems, methods and apparatuses for a selection of one or more transmission and reception points (TRPs) within a multi-TRP system. In one aspect, a user equipment (UE) may transmit an indication of the selected TRPs and an indication of one or more beams that the selected TRPs may use to communicate with the UE based on a mismatch between a default operating frequency (DOF) of each TRP within the multi-TRP system and a DOF of the UE. For example, the UE may receive an indication of a DOF of each antenna port of the TRPs within the multi-TRP system and the UE may compare the indicated DOFs with a DOF of each antenna module of the UE. The UE may select to communicate with TRPs and select one or more ports that the selected TRPs may use to communicate with the UE based on the comparison. | 2022-05-26 |
20220166473 | Channel-Matrix Dependent Step Size for Iterative Precoding Matrix Calculation - A channel matrix representing characteristics of a multi-path channel between a transmitter device ( | 2022-05-26 |
20220166474 | SYSTEMS AND METHODS FOR MITIGATING INTERFERENCE WITHIN ACTIVELY USED SPECTRUM - Systems and methods are described to mitigate interference to out of band receivers using out of band training signals. | 2022-05-26 |
20220166475 | Method for transmitting uplink data in wireless communication system and apparatus therefor - A method for transmitting Physical Uplink Shared Channel (PUSCH) performed by a User Equipment (UE) in a wireless communication system may include receive downlink control information (DCI) for uplink (UL) transmission scheduling; and performing codebook based PUSCH transmission based on precoding information included in the DCI. | 2022-05-26 |
20220166476 | AUTOMATIC ANTENNA BEAM ALIGNMENT - Embodiments of the present disclosure relate to automatic antenna beam alignment. A method comprises determining first position-related information indicating a first location and a first orientation of a first communication device. The first communication device comprises a plurality of antenna sectors configured for generating respective directional beams. The method also comprises receiving, from a second communication device, second position-related information indicating a second location and a second orientation of the second communication device. The method also further comprises selecting a subset of the plurality of antenna sectors based on the first and the second position-related information; and causing the first communication device to perform beamforming training with the second communication device using the selected subset of antenna sectors. A decreased number of antenna sectors are scanned during the beamforming training, which can reduce the time overhead and facilitate the devices to find the best beam efficiently. | 2022-05-26 |
20220166477 | MIMO-OFDM WIRELESS SIGNAL DETECTION METHOD AND SYSTEM CAPABLE OF CHANNEL MATRIX PRE-PROCESSING BEFORE DETECTION - A signal detection method for a MIMO-OFDM wireless communication system includes obtaining a channel matrix of each subcarrier through channel estimation for each MIMO-OFDM data packet in a plurality of MIMO-OFDM data packets; receiving a reception vector of each subcarrier; performing channel matrix preprocessing for the channel matrix of each subcarrier to generate a global dynamic K-value table, in which the global dynamic K-value table includes a global dynamic K-value corresponding to each search layer of each subcarrier; performing MIMO detection for each OFDM symbol in the MIMO-OFDM data packet, in which the MIMO detection includes performing the following steps for each subcarrier of a current OFDM symbol: reading channel matrix preprocessing results and reception vector of the current subcarrier; transforming the reception vector of the current subcarrier into an LR search domain; and performing K-best search for the current subcarrier to obtain an LR domain candidate transmission vector of the current subcarrier, in which a K-value applied to each search layer of the current subcarrier during the K-best search is a global dynamic K-value in the global dynamic K-value table corresponding to the search layer. | 2022-05-26 |
20220166478 | CONTROL OF EIRP OF A RADIO BASE STATION - Mechanisms for controlling average Equivalent Isotropic Radiated Power (EIRP) of a radio base station, in which a method is performed by a control device. The method comprises performing control of average EIRP of the radio base station according to a back-off power density control loop. In the back-off power density control loop, a beam width control parameter is used to vary the average EIRP generated by an antenna array of the radio base station, whereby the average EIRP is selectively reduced based on the beam width control parameter. | 2022-05-26 |
20220166479 | CHANNEL STATE INFORMATION MEASUREMENT METHOD AND ASSOCIATED WIRELESS COMMUNICATION CHIP AND ELECTRONIC DEVICE - The present invention provides an electronic device including a first antenna, a second antenna and a wireless communication chip. The wireless communication chip is configured to control the first antenna to broadcast a packet, control the second antenna to receive the packet broadcasted from the first antenna, and determine channel state information according to the packet received by the second antenna. | 2022-05-26 |
20220166480 | METHOD AND APPARATUS FOR TRANSMITTING AND RECEIVING UPLINK DATA IN WIRELESS COMMUNICATION SYSTEM - Disclosed herein are a method and a device for transmitting a message in an initial access procedure by a user equipment (UE) in a wireless communication system. According to the present disclosure, a UE may transmit to a base station capability information associated with transmission power of the UE and the information may include a subset including at least one transmit precoding matrix indicator (TPMI) supported by the UE. The UE may receive first control information for transmitting a message associated with an initial access and the control information may include a TPMI used for the UE to transmit the message. Thereafter, the UE may transmit to the base station the message by using transmission power determined based on the TPMI and the transmission power may be determined according to whether the TPMI is included in the at least one TPMI. | 2022-05-26 |
20220166481 | UE CAPABILITY SPACE FREQUENCY MULTI TRP USER EQUIPMENT PEAK TO AVERAGE POWER RATIO REDUCTION - A configuration to reduce a UE PAPR due to a transmission of a PAPR reduction signal into a UE null space. The apparatus establishes a connection with a base station. The apparatus transmits, to the base station, an SFMT report including an indication of a capability of the UE to process a signal form the base station that includes an SFMT transmission. The apparatus receives, from the base station, a downlink PAPR reduction signal based on the SFMT report of the UE. | 2022-05-26 |
20220166482 | METHOD AND APPARATUS FOR ANTENNA PANEL CONTROL - A method for wireless communication performed by a user equipment (UE) is provided. The UE includes a plurality of antenna panels. The method includes transmitting, to a Base Station (BS), a UE capability message that includes a number of the plurality of antenna panels; and transmitting, to the BS, a panel report that includes information of the plurality of antenna panels, the information associated with at least one of a Synchronization Signal Block (SSB) and a Channel State Information Reference Signal (CSI-RS). | 2022-05-26 |
20220166483 | METHOD AND APPARATUS FOR ACQUIRING PRECODING MATRIX INDEX AND STORAGE MEDIUM - Disclosed area method and apparatus for acquiring a PMI, and a storage medium. The method includes: searching a first group of PMI parameters according to first initial values of a PMI parameter set, and determining the first group of PMI parameters corresponding to the maximum capacity as a first group of reported values; generating second initial values of the PMI parameter set; searching a second group of PMI parameters according to the second initial values of the PMI parameter set, and determining the second group of PMI parameters corresponding to the maximum capacity as a second group of reported values; generating third initial values of the PMI parameter set; and searching a third group of PMI parameters according to the third initial values of the PMI parameter set, and determining the third group of PMI parameters corresponding to the maximum capacity as a third group of reported values. | 2022-05-26 |
20220166484 | METHOD FOR TRANSMITTING PHYSICAL UPLINK SHARED CHANNEL IN WIRELESS COMMUNICATION SYSTEM, AND DEVICE FOR SAME - The present specification relates to a method which is for transmitting a Physical Uplink Shared Channel (PUSCH) in a wireless communication system, and is performed by a terminal. The method is characterized by including: a step for receiving, from a base station, information about a plurality of beam candidates for transmitting a PUSCH through a Sounding Reference Signal Resource Indicator (SRI) field or a Transmission Configuration Indicator (TCI) field of Downlink Control Information (DCI); a step for selecting any one beam among the plurality of beam candidates on the basis of a predefined criterion; and a step for transmitting the PUSCH by using the selected one beam. | 2022-05-26 |
20220166485 | METHOD FOR TRANSMITTING UPLINK FEEDBACK INFORMATION RELATED TO BEAM OF USER EQUIPMENT IN WIRELESS COMMUNICATION SYSTEM, AND USER EQUIPMENT AND BASE STATION FOR SUPPORTING SAME - The present disclosure discloses a method for transmitting, by means of a user equipment, uplink feedback information related to at least one cell among a plurality of cells configured to the user equipment in a wireless communication system comprising the user equipment and a base station comprising a plurality of cells, and a user equipment and a base station for supporting same. According to an embodiment applicable to the present disclosure, a user equipment may report, to a base station, only uplink feedback information related to some of a plurality of cells in which BF has occurred, and correspondingly, the base station may recognize that uplink feedback information related to a beam which is received from the user equipment includes only uplink feedback information related to some of the plurality of cells in which the BF has occurred. | 2022-05-26 |
20220166486 | Type II CSI Port Selection Codebook Enhancement with Partial Reciprocity - A base station and wireless communication (UE) may perform type II CSI-RS port selection based at least on partial reciprocity between an uplink path and a downlink path between the base station and the UE. The base station may identify dominant signal paths between the base station and the UE, based on measurements performed during uplink transmissions, and may transmit, to the UE, corresponding information indicative of CSI measurement and reporting configuration that may include a single measurement resource or multiple measurement resources. Each measurement resource may include multiple-port CSI-RS ports. The UE may indicate, to the base station, selection of a measurement resource when multiple measurement resources are configured, and may also report layer independent or layer common selection of a subset of CSI-RS ports included in the indicated single measurement resource or multiple measurement resources. Further enhancements include frequency domain compression enhancement and dynamic codebook parameter reconfiguration. | 2022-05-26 |
20220166487 | SELECTIVE RADIO FREQUENCY (RF) REFERENCE BEAM RADIATION IN A WIRELESS COMMUNICATIONS SYSTEM (WCS) BASED ON USER EQUIPMENT (UE) LOCATIONS - Selective radiation of radio frequency (RF) reference beams in a wireless communications system (WCS) based on user equipment (UE) locations is disclosed. The WCS may include a radio node that communicates RF communications signals in a coverage area via RF beamforming. Thus, the radio node is required to periodically radiate a number of RF reference beams in different directions of the coverage area to help UEs to identify a best-possible RF beam(s). However, radiating the RF beams in different directions periodically can increase power consumption of the radio node, particularly when the UEs are concentrated at a handful of locations in the coverage area. In this regard, the radio node can be configured to selectively radiate a subset of the RF reference beams based on a determined location(s) of the UE(s) in the coverage area, thus making it possible to reduce computational complexity and power consumption of the radio node. | 2022-05-26 |
20220166488 | METHOD AND APPARATUS FOR FOCUSED DATA COMMUNICATIONS - A method and apparatus for focused communication is disclosed. The method includes a base transmitter array in communication with at least one client device at the same frequency. The base transmitter array provides a focused data communication to the client device. | 2022-05-26 |
20220166489 | COMMUNICATION DEVICE, BASE STATION DEVICE, COMMUNICATION METHOD, AND BASE STATION DEVICE CONTROL METHOD - A communication device ( | 2022-05-26 |
20220166490 | METHOD BY WHICH TERMINAL PERFORMS BEAM SWEEPING IN WIRELESS COMMUNICATION SYSTEM FOR SUPPORTING SIDELINK, AND DEVICE THEREFOR - Disclosed in various embodiments are: a method by which user equipment (UE) performs beam sweeping by using a plurality of transmission beams in a wireless communication system for supporting a sidelink; and a device therefor. Particularly, disclosed in various embodiments are a method and a device therefor, the method comprising the steps of: receiving configuration information related to the beam sweeping; grouping the plurality of transmission beams into a plurality of groups on the basis of the number of reference beams included in the configuration information; and performing beam sweeping according to a transmission order determined for the plurality of groups, wherein the transmission order is determined on the basis of a group index for the plurality of groups and the number of repetitions in which the beam sweeping is repeatedly performed. | 2022-05-26 |
20220166491 | IN-HOUSE RELAY DEVICE AND SUPPORT EQUIPMENT FOR SUPPORTING SAME - Certain embodiments of the present invention relate to an in-house relay device capable of 5G wireless communication and support equipment for supporting same, the support equipment comprising: a vertical rod installed in a z-axis direction from the bottom surface; a support member disposed at one end of the vertical rod to be coupled to the vertical rod, and supporting the in-house relay device; and a fixing member coupled to the support member and fixing the support member in a direction of a permeable outer wall, wherein the support member may comprise a rotating plate for adjusting a direction of the in-house relay device. | 2022-05-26 |
20220166492 | Combined Duplexer - Technology for a combined duplexer is disclosed. The combined duplexer can include a first common port and a second common port, a first first direction filter is configured to pass a first direction signal in a first frequency band and, a first second direction filter to pass a second direction signal in a second frequency band, and a second first direction filter to pass the first signal in the first frequency band. The first first direction filter and the first second direction filter share the first common port. The first second direction filter and the second first direction filter share the second common port. | 2022-05-26 |
20220166493 | ANTENNA DEVICE, INTEGRATED COMMUNICATION DEVICE, AND WIRELESS COMMUNICATION DEVICE - An antenna device includes: a plurality of antenna elements for a plurality of communication systems; a housing that houses the plurality of antenna elements; and a digital signal processing circuit connected to one of the plurality of antenna elements and configured to perform a demodulation process to demodulate an analog signal received by the one of the plurality of antenna elements to obtain a digital signal, or/and a modulation process to modulate a digital signal to an analog signal and output the modulated analog signal to the one of the plurality of antenna elements. At least one of the plurality of antenna elements communicates with outside of the antenna device by an analog signal on a signal line connected to the at least one of the plurality of antenna elements. | 2022-05-26 |
20220166494 | SYSTEMS AND METHODS FOR CHANGING VHF DATA RADIO MODE DUE TO ELECTROMAGNETIC INTERFERENCE - Techniques for detecting the presence of interference in a channel of a VHF data radio are provided. Upon detecting a sufficient level interference, the mode of the VHF data radio is changed from VHF data link (VDL) mode 2 to VDL mode A. Optionally, the VHF data radio mode may be changed back to VDL 2 from VDL mode A departing or preparing to depart. | 2022-05-26 |
20220166495 | Intelligent Measurement and Control Communication Network System - The intelligent measurement and control communication network at least includes at least one management node and at least one common node. The whole intelligent measurement and control communication network is logically divided into a control plane and a service plane. The control plane selects a routing strategy with the shortest path to cause each management node on the control plane to communicate with all common nodes. The service plane is divided into multiple task subnets according to tasks performed by each node, and each task subnet may select different routing strategies according to task requirements of this task subnet. According to the application and scenario needs of the tasks, the control plane combines externally changed parameters and utilizes machine learning to generate a new mathematical model in real time and sends a new task instruction to the service plane. | 2022-05-26 |
20220166496 | SYSTEM AND METHOD FOR SOLAR CELL ARRAY COMMUNICATION - In one implementation, a method for a solar cell array is provided, the method includes emitting a communication message from the solar cell array by reverse biasing the solar cell array so as to cause at least a portion of the solar array to emit a detectable amount of radiation corresponding to the communication message. In one embodiment a solar cell array circuit is provided including a solar string comprising a plurality of solar cells coupled together, a charge storage device coupled to a power bus, and a bidirectional boost-buck converter having a first and second pair of MOSFETs connected in series between positive and negative rails of the power bus with an inductor coupled from between the first and second paired MOSFETs to a charging output of the solar string. | 2022-05-26 |
20220166497 | System and Method for Data Handling of Linked Earth-Space Layers with Optional Heavy Computation - A system, architecture and method for data handling, computation, and communication for Earth-based and space-based activities through the use of ground and space-based systems. The system architecture may include a Core Space Layer. The system architecture may further include an Earth User Layer, a Relay Layer, a Computing Layer, a Terrestrial Communications Layer, and a Space User Layer. The Computing Layer is a cloud-based architecture that serves to reduce bandwidth burdens on Earth-Space trunk by processing data into manageable streams of information. The Core Space Layer contains LEO satellites, one of which may act as a dedicated computing node. The Core Space Layer may operate in a public and/or private mode with a first constellation of LEO satellites operating in a private mode and a second constellation of LEO satellites operating in a public mode. | 2022-05-26 |
20220166498 | RESOURCE COORDINATION FOR INTEGRATED ACCESS AND BACKHAUL - The described technology is generally directed towards dynamic resource coordination that supports multi-hop based relaying for integrated access and backhaul (IAB) in New Radio (5G). Described is a technology in which an IAB node and a serving parent node use wireless signaling to dynamically adapt downlink and uplink resources used for access and backhaul links. An IAB node receives scheduling data from a parent node, configures a frame structure comprising mobile termination function subframes and distributed unit component subframes, and communicates data based on the frame structure. The parent node explicitly or implicitly indicates that a portion of the scheduling data is adaptable, e.g., sends a dynamic frame structure coordination message. In response, the IAB node can adapt the frame structure into a modified frame structure and can communicate further data based on the modified frame structure. | 2022-05-26 |
20220166499 | OPTICAL COMMUNICATION DEVICE - An ONU includes a communication unit, an abnormal light emission prevention unit, and a control unit that transmits a data signal and a transmission permission signal to the communication unit and transmits the transmission permission signal to the abnormal light emission prevention unit between a transmission start time and a transmission end time. When the transmission permission signal is received, the communication unit, transmits an optical signal to an OLT, and transmits an operation signal to the abnormal light emission prevention unit during the transmission of the optical signal. The abnormal light emission prevention unit transmits a stop signal to the communication unit when a difference between a time for which the transmission permission signal is received and a time for which the operation signal is received is greater than or equal to a threshold value. The communication unit stops when the stop signal is received. | 2022-05-26 |
20220166500 | Avoiding fiber damage on non-supervisory optical fiber links - Systems and methods for avoiding fiber damage of an optical fiber link are provided. A method, according to one implementation, includes monitoring optical signals transmitted along an optical fiber link from an output port of a first card to an input port of a second card. In response to detecting a fiber disconnection state when an amplifier of the first card is operating in a normal condition, the amplifier of the first card enters a forced Automatic Power Reduction (APR) condition. In addition to potentially reducing the risk of eye damage from laser light emitted from the optical fiber link, the forced APR condition is configured to allow for an uninterrupted debugging procedure. Also, the method includes returning the amplifier of the first card from the forced APR condition back to the normal operating condition after receiving an indication that the fiber disconnection state has cleared. | 2022-05-26 |
20220166501 | OPTICAL TRANSCEIVER AND METHOD FOR CONTROLLING OPTICAL TRANSCEIVER - An optical transceiver is configured to receive an optical signal on which a monitoring signal encoded by Manchester encoding is superimposed. The optical transceiver includes a decoding circuit configured to decode the monitoring signal from an electrical signal generated from the optical signal. The decoding circuit includes an interval measuring unit and a decoding unit. The interval measuring unit is configured to detect only a rising edge or a falling edge of a waveform of the electrical signal, to measure a first time interval between a detected first edge and a second edge detected immediately after detecting the first edge, and to measure a second time interval between the second edge and a third edge detected immediately after detecting the second edge. The decoding unit is configured to decode the monitoring signal encoded by the Manchester encoding based on a ratio between the first and second time intervals. | 2022-05-26 |
20220166502 | OPTICAL FIBER DISPLAY SYSTEM AND OPTICAL FIBER SWITCHING METHOD - There are provided an optical fiber display system and an optical fiber changeover method each enabling an efficient optical fiber changeover work. The optical fiber display system according to the present invention includes a plurality of core wire identification terminals | 2022-05-26 |