20th week of 2020 patent applcation highlights part 72 |
Patent application number | Title | Published |
20200153328 | DRIVING CIRCUIT AND SWITCH SIGNAL GENERATION METHOD THEREOF - A driving circuit and a switch signal generation method are provided. The driving circuit receives a PWM signal and provides a first switch signal and a second switch signal. The driving circuit includes a logical signal circuit, a lower bridge dead time circuit and a lower bridge driving circuit. The logical signal circuit provides a first logical signal and a second logical signal according to the PWM signal. The lower bridge dead time circuit determines a leading edge of a lower bridge dead time signal according to the first logical signal and determines a trailing edge of lower bridge dead time signal according to a trailing edge of first switch signal. The lower bridge driving circuit determines a leading edge of second switch signal according to second logical signal and determines a trailing edge of second switch signal according to the trailing edge of lower bridge dead time signal. | 2020-05-14 |
20200153329 | Predictive Power Factor Control for Electronic Systems - A predictive power factor control system for an electronic system which includes a power supply providing power at a power supply output to a load having at least one component operable in a plurality of operating states. A load controller selectively determines the operating state of the load. A power factor control (PFC) circuit is coupled to the power supply and cooperates with the power supply to maintain the power factor of the power supply output within desired ranges. The load controller may provide the PFC circuit with a pending load change notification prior to a pending change in the operating state of the controlled load or prior to the activation of additional loads on the power supply output, enabling the PFC circuit to predictively adjust operation to avoid or minimize power factor fluctuations arising from changes in operating state of the load or activation of an additional loads. | 2020-05-14 |
20200153330 | POWER FACTOR CORRECTION (PFC) DEVICE WITH SWITCHING ANALYSIS CIRCUIT - An apparatus includes an alternating current (AC) input node. The apparatus also includes a power factor correction (PFC) circuit with a first inductor coupled between the AC input node and a switch node. The apparatus also includes a switching analysis circuit for the PFC circuit. The switching analysis circuit includes a second inductor inductively coupled to the first inductor. The switching analysis circuit also includes a rectifier coupled to the second inductor. The switching analysis circuit also includes a sensing resistor coupled to the rectifier. | 2020-05-14 |
20200153331 | POWER DEVICE - A power device includes a first conversion module and a second conversion module. The first conversion module includes a first conversion unit and receives a first divided voltage of a bus voltage. The second conversion module includes a cascade conversion circuit with a second conversion unit and a third conversion unit. The input terminal of the second conversion module and the input terminal of the first conversion module are connected with each other in series. The input terminal of the second conversion module receives a second divided voltage of the bus voltage. The output terminal of the second conversion module and the output terminal of the first conversion module are electrically connected with each other in parallel so as to provide an output voltage to a load. The third conversion unit detects the output voltage to control the output voltage stable. | 2020-05-14 |
20200153332 | VOLTAGE CHARGE PUMP WITH SEGMENTED BOOST CAPACITORS - A voltage charge pump circuit with boost capacitor segments and boost delay chain structures are provided. The voltage charge pump circuit comprising a plurality of boost capacitor segments each of which is individually controlled by a respective signal line of a boost delay chain structure. | 2020-05-14 |
20200153333 | DC/DC CONVERTER CONTROL DEVICE - With respect to a failure in voltage sensors each for detecting a high-voltage-side voltage in a DC/DC converter, it is so arranged that a circuit failure of the DC/DC converter is prevented, and that the DC/DC converter is continuingly controlled. Two voltage sensors are included therein each for detecting a high-voltage-side voltage, so that, even when a first voltage sensor for detecting a high-voltage-side voltage on one side fails to work properly, a control device turns on a second switching device, and detects a voltage by a second voltage sensor for detecting the high-voltage-side voltage on the other side, whereby a failure of the voltage sensor for detecting the high-voltage-side voltage is detected. | 2020-05-14 |
20200153334 | DC-DC CONVERTER FOR A LOW VOLTAGE POWER SOURCE - The invention relates to a DC-DC converter ( | 2020-05-14 |
20200153335 | BIDIRECTIONAL POWER CONVERTER, ELECTRIC VEHICLE, AND CONTROL METHOD FOR BIDIRECTIONAL POWER CONVERTER - A bidirectional power converter includes a first terminal, a second terminal, a main reactor, a plurality of sub-circuits and a controller. The sub-circuits each include an upper switching element, a lower switching element, two diodes, and a sub-reactor. The controller sequentially controls the sub-circuits such that: the lower switching element is turned on and turned off and then the upper switching element is turned on and turned off in each of the sub-circuits, while a current is flowing from the first terminal toward the second terminal; and the upper switching element is turned on and turned off and then, the lower switching element is turned on and turned off in each of the sub-circuits, while the current is flowing from the second terminal toward the first terminal. | 2020-05-14 |
20200153336 | FLEXIBLE POWER CONVERSION SYSTEMS WITH WIDE DC VOLTAGE UTILIZATION - A DC-DC power converter comprises: first, second and third input nodes for connection to one or more DC input power sources; a pair of upper switches T | 2020-05-14 |
20200153337 | MULTI-RESONANT CONVERTER POWER SUPPLY - In one embodiment, an apparatus includes a first stage comprising a first active switch, a first resonant inductor, and a resonant capacitor and a second stage comprising a second active switch, a second resonant inductor, and a filter capacitor. The first and second stages form a non-isolated multi-resonant converter for converting a DC input voltage to a DC output voltage. | 2020-05-14 |
20200153338 | RESONANT CONVERTER CONTROL BASED ON ZERO CURRENT DETECTION - A GaN resonant circuit is disclosed. The GaN resonant circuit includes a power switch configured to be selectively conductive according to one or more gate signals, and configured to generate a switch signal indicative of the value of the current flowing therethrough. The GaN resonant circuit also includes a power switch driver, configured to generate the gate signals in response to one or more control signals, where the power switch driver is configured to cause the power switch to become nonconductive in response to the switch signal indicating that the value of the current flowing through the power switch has transitioned across a threshold value. | 2020-05-14 |
20200153339 | POWER SUPPLY DEVICE AND METHOD FOR CONTROLLING POWER SUPPLY DEVICE - Provided is multi-phase interleaving control in a power supply device, the control allowing the pulse widths ΔT of respective phases to overlap one another, so as to be adaptable to wideband pulse power control. In applying dead beat control to the multi-phase interleaving, constant current control is performed using combined current of the respective phase current values, and the pulse widths ΔT(k) is computed under this constant current control, thereby preventing variation of the pulse widths ΔT(k) between the phases, and achieving stable power control. Accordingly, the pulse power control becomes adaptable to wideband. Furthermore, wideband control is possible also in two-level pulse power control that performs control by switching at high frequency between High-level power and Low-level power. | 2020-05-14 |
20200153340 | HYSTERESIS-CONTROLLED DC-DC BOOST CONVERTER FOR AERIAL VEHICLES - A power conversion unit may include two or more power modules for providing high-voltage direct current power to electrical loads, such as one or more propulsion motors aboard an aerial vehicle. Each of the power modules may be controlled by hysteresis, and may include one or more pairs of transistors that are switched by a gate driver with respect to differences between a reference current and a sensed current passing through a boost inductor. The number, size and shape of the power modules may be selected to accommodate the electrical loads, and may be switched on or off, as necessary. The power conversion unit may feature at least one more power module than is required to meet all anticipated electrical loads, thereby ensuring that the power conversion unit may continue to provide power even in the event that one of the power modules experiences a fault of any kind. | 2020-05-14 |
20200153341 | SYMMETRICAL POWER STAGES FOR HIGH POWER INTEGRATED CIRCUITS - A circuit assembly for a power converter includes a substrate, power stage integrated circuit (IC) dies, and output inductors that connect switch nodes of the power stage IC dies to an output node of the power converter. The power stage IC dies are mounted on one side of the substrate and the output inductors are mounted on an opposing side of the substrate. Two output inductors go through a magnetic core. A heatsink is attached to surfaces of the power stage IC dies. A power stage IC die has a pair of switching transistors, and a switch node formed by the switching transistors is connected by an output inductor to the output node of the power converter. | 2020-05-14 |
20200153342 | POWER CONVERSION APPARATUS - A power inversion apparatus includes a smoothing capacitor, first and second primary coils, a secondary coil, first to fourth switches of bridge circuit switches, a clamp capacitor, and a switch controller. The switch controller calculates a lower-arm duty ratio of each of the first and second switches using a map or a mathematical expression by feed-forward control based on an input voltage. The switch controller outputs a fixed value that is equal to or greater than a maximum value of the lower-arm duty ratio within a variation range of the input voltage as an upper-arm duty ratio of each of the third and fourth switches. The switch controller generates a pulse width modulation signal based on the calculated lower-arm duty ratio and the fixed value of the upper-arm duty ratio, and outputs the pulse width modulation signal to the bridge circuit switches. | 2020-05-14 |
20200153343 | METHODS, APPARATUS, AND SYSTEMS TO FACILITATE HIGH SIDE CONTROL OF A SWITCHING POWER CONVERTER - Methods, systems, and apparatus to facilitate high side control of a switching power converter are disclosed. An example apparatus includes a latch including a first node coupled to a first source of a first switch and an output coupled to a first gate of the first switch; a first diode coupled to the first node and a second node; a second diode coupled to the second node and ground; a second switch coupled to a voltage source and the second node; and a third switch including a third gate coupled to the second switch, a third source coupled to the second node, and a third drain coupled to the latch. | 2020-05-14 |
20200153344 | DC-DC CONVERTER AND DISPLAY DEVICE HAVING THE SAME - A DC-DC converter including a first power supply including a first converter outputting a first power voltage, a first sensor detecting a panel current from an output of the first converter; and a first output group including a plurality of inverting converters outputting a second power voltage based on the panel current; a second power supply including a second converter outputting the first power voltage, and a second output group including a plurality of inverting converters outputting the second power voltage based on the panel current; and a first phase controller controlling operations of the inverting converters included in each of the first and second output groups based on the detected panel current. The second power supply operates when the panel current exceeds a predetermined enable value. | 2020-05-14 |
20200153345 | A DC-DC POWER CONVERTER WITH IMPROVED OUTPUT CURRENT RESOLUTION - The present invention relates to a DC-DC power converter which comprises a switched converter core operated in accordance with a primary control signal to supply a primary DC output current (Io) of the converter; said primary control signal exhibiting a minimum resolution, e.g. a minimum time step, leading to a corresponding minimum current step of the primary DC output current. The DC-DC power converter additionally comprises a controllable resistive path, or a controllable current source, connected between a pair of terminals selected from a group of: (the positive output terminal, the negative output terminal, the positive input terminal, the negative input terminal) and configured to add or subtract a secondary DC output current (Icon) to the primary DC output current (Io) in accordance with a secondary control signal to adjust the load current. | 2020-05-14 |
20200153346 | SWITCHED-TANK DC TRANSFORMER AND VOLTAGE RATIO SWITCHING METHOD THEREOF - A switched-tank dc transformer and a voltage ratio switching method thereof are provided. The switched-tank DC transformer includes an input terminal, an output terminal, 2n inverting switches, 2n rectifying switches, 2n−2 clamping switches, n resonance tanks and n−1 support capacitors. The inverting switches are serially connected in sequence. There is an inverting node between every two neighboring inverting switches. A terminal of the rectifying switch is connected with a rectifying node. A terminal of the two clamping switch is electrically connected with a clamping node. The resonance tank is electrically connected between the inverting node and the rectifying node. The support capacitor is electrically connected between the inverting node and the clamping node. Every support capacitor and every resonance tank is switchable to be in a normal state or a voltage ratio switching state, thus a voltage ratio of the switched-tank DC transformer is allowed to vary correspondingly. | 2020-05-14 |
20200153347 | SWITCHED-TANK DC TRANSFORMER AND VOLTAGE RATIO SWITCHING METHOD THEREOF - A switched-tank DC transformer and a voltage ratio switching method thereof are provided. The switched-tank DC transformer includes an input terminal, an output terminal, 2n inverting switches, 2n rectifying switches, 2n−2 clamping switches, n resonance tanks and n−1 support capacitors. The inverting switches are serially connected in sequence. There is an inverting node between every two neighboring inverting switches. A terminal of the rectifying switch is connected with a rectifying node. A terminal of the two clamping switch is electrically connected with a clamping node. The resonance tank is electrically connected between the inverting node and the rectifying node. The support capacitor is electrically connected between the inverting node and the clamping node. Every support capacitor and every resonance tank is switchable to be in a normal state or a voltage ratio switching state, thus a voltage ratio of the switched-tank DC transformer is allowed to vary correspondingly. | 2020-05-14 |
20200153348 | VARIABLE FREQUENCY DRIVE WITH INTEGRATED FRONT-END RECTIFIER AND BYPASS - A motor control system includes a VFD unit comprising a rectifier circuit having a plurality of phase legs each including thereon an upper switching unit and a lower switching unit, an inverter connected to the rectifier circuit by way of a DC link and having a plurality of switches therein controllable to provide a three-phase AC output power to a load, and a bypass relay unit comprising a bypass relay coupled to each of the phase legs of the rectifier circuit downstream from the lower switching unit. An isolation contactor unit is positioned between the inverter and the load and operable to selectively connect/disconnect the inverter to/from the load. The bypass relay unit is operable in a first and second positions to couple the rectifier circuit to the inverter and to couple the rectifier circuit to a bypass path that bypasses the inverter. | 2020-05-14 |
20200153349 | SYSTEM AND METHOD FOR EXTENDING POWER SUPPLY UNIT HOLDUP TIME - A system and method is directed to charging and discharging an energy-tank capacitor of a power supply unit (PSU) in a computing system. The PSU has a forward converter, a buck converter, a switch box, and an option box. The forward converter has a transformer. A primary winding of the transformer is coupled to an input of the PSU, while a secondary winding of the transformer is coupled to an output of the PSU. Two or more components of the forward converter are shared with the buck converter to support the functionality of the buck converter when it is enabled. The switch box has a power switch and a controller switch connected to the forward converter. The energy stored on the energy-tank capacitor is capable of supporting power consumption of the server system during a hold-up time, when an input power to the PSU is interrupted. | 2020-05-14 |
20200153350 | POWER SUPPLY DEVICE - In the power supply device, the insulated transformer transforms the voltage of alternating-current power. The rectifying circuit rectifies the alternating-current power transformed by the transformer to direct-current power. The smoothing inductor smoothes the direct-current power rectified by the rectifying circuit. The first output terminal outputs the direct-current power smoothed by the smoothing inductor. The second output terminal is a terminal different from the first output terminal and outputs the direct-current power smoothed by the smoothing inductor. An FET is provided between the smoothing inductor and the first output terminal and adjusts a current output from the smoothing inductor to the first output terminal. An FET is provided between the smoothing inductor and the second output terminal and adjusts a current output from the smoothing inductor to the second output terminal. The controller controls the FET and the FET. | 2020-05-14 |
20200153351 | HYBRID PV INVERTER WITH SCIB BATTERY INTEGRATION & SCIB ADD-ON - In accordance with presently disclosed embodiments, a hybrid power conversion system and method are provided. The hybrid power conversion system integrates multiple power sources. An isolated DC/DC converter manages power transfer between the power sources and the DC/DC converter and the power sources are connected such that a full power rating converter is not required. One of the power sources may comprise one or more battery strings, which may be selectively coupled to a DC/AC inverter. In one embodiment, the battery strings may be connected to a lead acid battery. Based on controller instructions, the isolated DC/DC converter replaces the power flow of the lead acid battery with the battery strings. In another embodiment, one or more battery strings may be selectively connected in series with a photovoltaic (PV) panel providing power to a load. When connected to the load, each of the battery strings may provide an incremental step up in power, boosting PV panel power. The number of battery strings that connect to the load at any given time may be based on the power provided by the PV panel and the power requirements of the load. | 2020-05-14 |
20200153352 | SWITCHING POWER SUPPLY CIRCUIT WITH SYNCHRONOUS RECTIFICATION AND ASSOCIATED CONTROL METHOD - A switching power supply circuit with synchronous rectifier has an energy storage component, a rectifier switch coupled to a secondary side of the energy storage component, and a secondary side control circuit. The secondary side control circuit provides a driving signal to control the rectifier switch. When the drain-source voltage across the rectifier switch is less than a first threshold value, the secondary side control circuit controls the driving signal to be a maximum voltage to control the rectifier switch being fully on for a predetermined duration. After a predetermined duration, the secondary side control circuit adjusts the voltage of the driving signal based on the drain-source voltage across the rectifier switch and a second threshold value. | 2020-05-14 |
20200153353 | METHODS AND APPARATUS FOR ZERO VOLTAGE SWITCHING USING FLYBACK CONVERTERS - Methods, apparatus, systems, and articles of manufacture for zero voltage switching of flyback converters are disclosed. An example apparatus includes a first driver to operate a first switch to direct a first current to flow to a first winding of a transformer, and a second driver to operate a second switch to direct a second current to flow to a second winding of the transformer and operate the second switch to cause the second current to discharge a voltage of the first switch. | 2020-05-14 |
20200153354 | CONTROLLING VOLTAGE IN AC POWER LINES - Regulating an AC voltage. The device includes a magnetic core, multiple windings around the core, and multiple switch arrays connectable between an AC power source and respective windings. The switch arrays including multiple switches controllable to connect the AC power source to the windings in a first polarity or in a second polarity. The first polarity and second polarity are different polarities, e.g. phase shifted by 180 degrees. An electrical conductor is disposed around or through the core. The electrical conductor is series-connectable to a power line. AC voltage of the power line is regulated by adding an AC voltage of the electrical conductor responsive to selection of the switches of the switch arrays. | 2020-05-14 |
20200153355 | RECTIFYING CIRCUIT AND POWER SUPPLY DEVICE - In a rectifying circuit including a HEMT and a diode connected antiparallel to the HEMT, a forward voltage drop when the diode starts to be conductive is made smaller than a voltage drop when the HEMT is reverse-conductive in an OFF state corresponding to an amount of rectified current when the HEMT is reverse-conductive in an ON state, inductance of a pathway extending through the diode is made larger than inductance of a pathway extending through the HEMT among the pathways connecting a source terminal and a drain terminal of the HEMT, and an amount of charge accumulated in a parasitic capacitance of the diode is made smaller than an amount of charge accumulated in an output capacitance of the HEMT. With this, there is provided a rectifying circuit in which switching loss due to the charge accumulated in the output capacitance of the HEMT is reduced. | 2020-05-14 |
20200153356 | DETERMINISTIC GAS-PLASMA-REGULATED AUTO POLARITY HIGH-VOLTAGE ELECTRIC-FIELD TRANSDUCING TRANSFORMER - The invention allows for transformation to DC of electric fields of unknown or variable strength and polarity, using conventional, easily obtainable components. The device employs plasma arrestors, high voltage capacitors, a step-down transformer, filter capacitors, a bridge rectifier, smoothing capacitors, field-effect rectifier diodes and an intermediate storage capacitor bank to accomplish this. | 2020-05-14 |
20200153357 | STRING INVERTER SYSTEM - A multi-inverter system with at least a string of inverters sharing a DC bus and outputting to a shared AC bus. Inverters are hot-swappable and configured to be turned on or off during powered cycles. Central control may comprise reducing power point tracking redundancies or promoting other operational changes at individual inverters of a group. | 2020-05-14 |
20200153358 | MMC CONVERTER - A modular multilevel converter (MMC) converter including an auxiliary sub-module provided between an upper converter arm and a lower converter arm of the MMC converter is provided. An MMC converter includes an auxiliary sub-module including: an energy storage unit storing a DC voltage in the sub-module; a first semiconductor switch connected to the energy storage unit; a second semiconductor switch connected to the first semiconductor switch; a third semiconductor switch connected to the second semiconductor switch; and a switching controller turning ON/OFF the first to third semiconductor switches, wherein a mid-point between the first and second semiconductor switches is connected to the sub-module of the upper converter arm, a mid-point between the second and third semiconductor switches is connected to a load connection terminal, and a mid-point between the third semiconductor switch and the energy storage unit is connected to the sub-module of the lower converter arm. | 2020-05-14 |
20200153359 | DC OFFSET COMPENSATION IN MODULAR MULTILEVEL CONVERTER - In a method of compensating for a DC offset of a high-voltage AC output from a Modular Multilevel Converter (MMC) including at least one phase leg, the MMC is connected to a three-phase high-voltage AC grid via a grid transformer. The method includes, in at least one DC offset correcting device, measuring the DC offset by in each of the at least one DC offset correcting device: obtaining a high-voltage AC signal in the MMC, removing high-voltage AC components from the obtained high-voltage AC signal by means of a passive higher-order filter to obtained an analogue filtered signal, converting the analogue filtered signal to a digital signal by means of an analogue-to-digital converter, removing remaining AC components from the digital signal by means of a digital filter to obtain the DC offset, and in a controller comparing the obtained offset with a reference value and forming a control signal based on said comparing. The method also includes transmitting the control signal from each of the at least one DC offset correcting device to a control device of the MMC. The method also includes, the control device mapping the control signal(s) from the at least one DC offset correcting device to the at least one phase leg. The method also includes, based on the mapping, the control device sending switching commands to the semiconductor switches of MMC cells in each of the at least one phase leg to compensate for the DC offset. | 2020-05-14 |
20200153360 | ADDITIVE SYNTHESIS OF INTERLEAVED SWITCH MODE POWER STAGES FOR MINIMAL DELAY IN SET POINT TRACKING - An apparatus utilizing additive interleaved switchmode (PWM) power conversion stages, having minimal or no output filter, to achieve high bandwidth or even ideally instantaneous power conversion. The additive process may involve voltage stacking of isolated PWM converters, which are interleaved in time, or may involve a single input power supply and inductively combining output currents of PWM power converters interleaved in time, with either additive circuit having minimal or no output filtering. This circuit may overcome limitations for the frequency of feedback control loops once thought to be physical limitations, such as, fundamental switching frequency, output filter delay and the Nyquist criteria. | 2020-05-14 |
20200153361 | Efficient Switching for Converter Circuit - An apparatus may include a first switch leg and a controller. The first switch leg may include a first switch and a second switch. The second switch may be connected in series to the first switch. For a first half of a switching cycle, the controller may control the first switch and the second switch to be OFF. For a second half of the switching cycle, the controller may control the first switch to alternate between being ON and being OFF and to control the second switch to be ON. | 2020-05-14 |
20200153362 | INVERTER SYSTEM WITH ENHANCED COMMON SOURCE INDUCTANCE GENERATED AT GATE DRIVER - A multiphase inverter for an electric vehicle drive has a plurality of drivers to provide drive signals to respective gate loops of upper and lower transistors in the phase legs. A transformer has a secondary winding in a first gate loop of a first transistor in one phase leg and a primary winding connecting a Kelvin-emitter of the first transistor to a Kelvin-emitter of a second transistor in the other phase leg. Switching transients of transistors are shortened because when gate signal is toggled to change a conduction state of a transistor in a first phase leg, a rate of current change in the first leg is sensed in a transformer primary winding connected across a stray inductance of the first leg. A voltage proportional to the sensed rate is added to the gate signal via a transformer secondary winding, thereby increasing a common source inductance of the transistor. | 2020-05-14 |
20200153363 | ENERGY HARVESTING SYSTEM BASED ON REVERSE ELECTRO WETTING ON DIELECTRIC - An energy harvesting system based on reverse electro wetting on a dielectric includes: a dielectric material layer molded with a dielectric material in a panel shape and including an upper end and a lower end; and an electrode layer including a plurality of electrodes coupled to a lower surface of the dielectric material layer. In particular, the upper end of the dielectric material layer is located higher than the lower end and allows a liquid drop to flow from the upper end to the lower end, and the dielectric material layer generates dielectric polarization in the dielectric material layer and continuously varies a flow rate of the liquid drop between the upper end and the lower end of the dielectric material layer. The plurality of electrodes are disposed to be spaced apart from one another in a direction from the upper end to the lower end. | 2020-05-14 |
20200153364 | HVAC HYBRID BLOWER MOTOR SOFT START - A method for soft start of a motor in a heating, ventilation, and cooling (HVAC) system. The method includes operably connecting a first switching device with the motor; the first switching device operably connected to a power source and configured to direct power from a DC power source to the motor, and operably connecting a second switching device with the motor, the second switching device operably connected to a power source and configured to direct power from the DC power source to the motor. The method also includes receiving, by a controller, a request to engage the motor associated with an operation of the HVAC system, commanding the first switching device with a first pulse width modulation signal for a first selected duration, while ensuring the second switching device is disengaged, and after the first selected duration, enabling the second switching device and disengaging the first switching device. | 2020-05-14 |
20200153365 | ELECTRIC MOTOR HAVING FUNCTION OF CHECKING ENERGIZED STATE OF BRAKE - An electric motor according to an embodiment of the present disclosure includes a rotor unit provided with a rotation shaft, a stator unit radially facing the rotor unit, an electromagnetic brake configured to brake the rotation shaft, and a sensor incorporated in the electromagnetic brake to detect an energized state of the electromagnetic brake. | 2020-05-14 |
20200153366 | CAMERA MODULE - A camera module includes a lens, a first magnet and a second magnet mounted on a mobile body including the lens, a coil portion arranged near the first magnet and configured to move the first magnet in a first direction, and the magnetic sensor arranged near the second magnet and configured to detect the position of the second magnet in the first direction as a detection direction. | 2020-05-14 |
20200153367 | METHOD FOR REDUCING THE COGGING TORQUE PRODUCED BY BRUSHLESS ELECTRIC MOTORS USED SIMULTANEOUSLY - The invention relates to a method for reducing the cogging torque (C | 2020-05-14 |
20200153368 | ELECTRIC OIL PUMP - Provided is an electric oil pump that does not degrade assembly operability and does not require a complicated configuration. The electric oil pump includes a motor portion that has a motor shaft disposed along a center axis extending in an axial direction; a pump portion that is disposed on one side of the motor portion in the axial direction, is driven by the motor portion via the motor shaft, and suctions and ejects an oil, and an inverter portion that is disposed on one side of the pump portion in the axial direction and drives the motor portion, the motor shaft penetrates through the pump portion, and the electric oil pump further includes a rotation angle sensor that is disposed at the inverter portion and detects a rotation angle of the motor shaft. | 2020-05-14 |
20200153369 | METHOD FOR CONTROLLING AN ACTUATOR - A method of controlling an actuator comprising an electric motor and an actuator coupled to the electric motor, the method comprising controlling the electric motor to move the actuator in a direction towards an absolute mechanical end stop until a last registered soft reference position has been reached and then to overtravel the last registered soft reference position by a predetermined distance, detecting the load of the actuator, and updating the registered soft reference position on the basis of the detected load. | 2020-05-14 |
20200153370 | SYSTEM AND COMPUTER-IMPLEMENTED METHOD FOR REDUCING ANGLE ERROR IN ELECTRIC MOTORS - A system and computer-implemented method for reducing an angle error in an estimated position of a rotor over various loads on an electric motor or type of electric motor. Electrical parameters of an electric motor are measured, a true rotor position is found, and sensorless gains based on the measured parameters are generated, including determining a sensorless angle. Data is gathered at multiple torque levels for at least one speed of the motor, including for each torque level, trying different inductance values, and determining an inductance value that results in an angle error of zero. The angle error is the difference between the true rotor position and the sensorless angle. The inductance value that results in an angle error of zero for each speed may be saved in an electronic memory and used to better control the motor or other motors of the same type. | 2020-05-14 |
20200153371 | ELECTRICAL DEFECT DETECTION IN A GENERATOR - A method for monitoring and detecting defects in a doubly-fed asynchronous machine including a stator and a rotor, said method implemented by computer means. The method comprises: a. receiving a current and a voltage measurement of the stator, and a measurement of relative rotation speed between the stator and the rotor; b. deducing a stat or power as a function of time; c. performing a harmonic analysis on the resulting stator power including applying a wavelet transform to the stator power; d. comparing the resulting harmonic representation to a reference harmonic representation, where said reference harmonic representation is selected as a function of the rotation speed measurement, so as to detect possible defects in said machine as a function of possible differences identified by the comparison. | 2020-05-14 |
20200153372 | HIGH PERFORMANCE CURRENT SENSING ARCHITECTURE FOR BRUSHLESS MOTORS - A motor controller for controlling the operation of a three-phase permanent magnet synchronous electric motor, wherein the three-phase permanent magnet synchronous electric motor is characterized by three phases A, B, C, and further wherein the three-phase permanent magnet synchronous electric motor is driven by regulating three phase currents i | 2020-05-14 |
20200153373 | CONSTANT TORQUE CONTROL METHOD FOR PERMANENT MAGNET SYNCHRONOUS MOTOR - A constant torque control method for a permanent magnet synchronous motor. The method includes: 1) starting a motor; setting a torque T of the motor; calculating a given current iq_limit on a q-axis based on the torque T; setting a target current iq_A on the q-axis to be equal to the given current iq_limit; and allowing the motor to operate in a constant torque control mode by a current-based proportional integral (PI) controller on the q-axis; 2) presetting a reference speed Vref1 of the motor; measuring a real-time speed V of the motor; when the real-time speed V is less than the reference speed Vref1, increasing an extra current delta_iq to the given current iq_limit to intervene the real-time speed V of the motor; and 3) measuring the real-time speed V of the motor; and calculating a speed difference Err=V−Vref2. | 2020-05-14 |
20200153374 | INPUT VECTOR SET FOR POSITION DETECTION OF PM MOTORS - A method of determining angular position (θ) of a rotor of an N-phase permanent magnet motor (PMM). A processor having an associated stored angular position determination (APD) algorithm is programmed to implement the algorithm to cause an associated motor controller to execute steps including forcing one vector at a time a phase vector set of current or voltage vectors to stator terminals of windings for the N-phases a positive and negative magnitude vector, wherein the vector magnitude is sufficiently small to not move the rotor, and a time duration for the forcing current or voltage vectors is essentially constant. The resulting stator current or voltage levels are measured for each current or voltage vector. An N-dimension current vector or voltage vector is generated from superposition of the resulting stator current levels or resulting stator voltage levels. The N-dimension current vector or voltage vector is used to determine angular position. | 2020-05-14 |
20200153375 | INVERTER DEVICE AND ELECTRIC POWER STEERING APPARATUS - An inverter device includes: an inverter, a power supply current detection sensor, a phase current detection sensor, a three-phase voltage command calculator, and an inverter on/off signal generation unit. The phase current detection sensor detects a phase current in one phase of the inverter. The inverter on/off signal generation unit generates on/off signals based on the phase voltage commands. The three-phase voltage command calculator uses the power supply current and the phase current detected by the power supply current detection sensor and the phase current detection sensor, respectively, so as to calculate phase voltage commands directed to the inverter, and at a center time point of a period in which an upper arm switching element corresponding to one phase out of two phases for which the phase current detection sensor is not provided is on, and lower arm switching elements corresponding to the other two phases are on. | 2020-05-14 |
20200153376 | Data Obtaining Method, Inverter, and Rotating Electric Machine - Provided are a data obtaining method, an inverter, and a rotating electric machine capable of managing the operation state of a device without complicating the configuration thereof. Therefore, the data obtaining method uses an inverter for controlling a synchronous electric motor, wherein a position/speed calculation unit of the inverter calculates an electric angle of the synchronous electric motor from the value of the current flowing between the synchronous electric motor and the inverter and obtains data for each electric angle by sampling internal data within the inverter, said internal data being used for controlling the synchronous electric motor in synchronization with the information of the electric angle. | 2020-05-14 |
20200153377 | VEHICLE AND METHOD OF CONTROLLING THE SAME - A vehicle and method of controlling the same are provided in which the performance of an electric motor is prevented from being degraded by efficiently and more accurately calculating the temperature of a permanent magnet within the electric motor to adjust the amount of power supplied to the electric motor. The vehicle includes an electric motor having a stator, a rotor, and a permanent magnet and a sensor that measures the temperature of the electric motor. An inverter drives the electric motor and a controller generates a predetermined heat quantity by supplying power to the electric motor to calculate the temperature of the permanent magnet based on the temperature of the electric motor at a predetermined point measured using the sensor. When the temperature of the permanent magnet exceeds a predetermined temperature, the controller reduces the supply of the power. | 2020-05-14 |
20200153378 | WIND GENERATOR - Integrated wind-photovoltaic system for the production of electrical energy, the system comprising a wind generator equipped with a semi-vertical axis provided, in turn, with wind blades having a back, wherein the back of the aerodynamic profile of these wind blades is at least partially provided with a covering consisting of flexible photovoltaic panels, and wherein a sunlight concentration optical system is provided comprising a plurality of coplanar lenses. | 2020-05-14 |
20200153379 | FLOAT AGGREGATE - The present invention is aimed at providing a float aggregate which can be manufactured at low cost and has countermeasures against wind pressure suitable for use on water. According to the present invention, provided is a float aggregate formed by connecting a plurality of floats configured for mounting a solar panel thereon, wherein the solar panel is provided on at least one of the plurality of floats so as to be inclined with respect to a surface of the float and to face a rear side of the float aggregate, the plurality of floats includes a base end float located along an end portion of on a front side of the float aggregate, and the base end float is provided with a windbreak member inclined with respect to a surface of the base end float and to face the front side of the float aggregate. | 2020-05-14 |
20200153380 | PHOTOVOLTAIC SYSTEM AND ASSOCIATED USE - For the economical and energy-efficient use of a PV system having upright, in particular bifacial, PV modules and to substantially avoid shading of the PV modules, a supporting structure which is simple to manufacture and install is provided, that is constructed by vertical posts, which are connected to one another at intersecting points, and horizontally running cross-members such that rectangular mounting areas are provided for the individual PV modules. The posts and cross-members are formed in a material-saving manner by conventional profiles, and a division of the posts into two interconnectable sections substantially facilitates the assembly. An electrical connection is provided such that active surfaces which are arranged one above another can be operated at different electrical operating points and such that electrical lines are formed which are operated separately from one another and are arranged in a horizontally running manner. This minimizes effects of shading of PV modules on the efficiency of the energy conversion. | 2020-05-14 |
20200153381 | SOLAR ARRAY WITH REFERENCE SOLAR POWER PLANT FOR IMPROVED MANAGEMENT - Solar array including solar modules distributed in rows ( | 2020-05-14 |
20200153382 | MOUNTING BRACKET FOR MOUNTING PHOTOVOLTAIC MODULES TO TORQUE TUBE BEAM - A mounting bracket assembly for securing facing edge portions of a pair of adjacent photovoltaic panels to a torque tube beam of a solar tracking assembly. The mounting bracket includes a mounting bracket and a fastener assembly including a securing strap for securing the mounting bracket to the torque tube beam. The mounting bracket includes: an upper support structure, a central attachment structure and a lower projection structure extending in a vertical direction downwardly away from the upper support structure. The upper attachment structure includes a first body and a second body spaced apart by the central attachment structure. The lower projection structure including a first rib extending vertically downwardly from the first body and a second rib extending vertically downwardly from the second body. A lower portion of the lower projection structure including a through slot sized to receive the torque tube beam. | 2020-05-14 |
20200153383 | Solar Cell Arrangement for an Electrically Drivable Motor Vehicle, and Motor Vehicle - The invention concerns a solar cell arrangement ( | 2020-05-14 |
20200153384 | PHOTOVOLTAIC PANEL - Modular photovoltaic (PV) panel, system, and method of mounting. The system including a mounting flashing configured to mounted to a mounting surface and a folding PV panel. The folding PV panel including: a first subpanel including first PV cells, wherein the first subpanel extends along a first lateral plane and comprises a plurality of mounting hooks extending laterally from and affixed to a backside of the first subpanel, the mounting hooks configured to couple to the mounting flashing; a second subpanel including second PV cells, wherein the second subpanel extends along a second lateral plane, wherein the second subpanel comprises a front edge support configured to hold a front edge of the second subpanel away from the mounting surface; and a hinge assembly rotationally coupling the first subpanel and the second subpanel to allow an angle between the first lateral plane and the second lateral plane to change. | 2020-05-14 |
20200153385 | METHODS OF AND APPARATUS FOR LOCATING ENERGY HARVESTING DEVICES IN AN ENVIRONMENT - When placing an energy harvesting electronic device in an environment, such as a room, the amount of light energy that will be available at different locations in the environment is predicted ( | 2020-05-14 |
20200153386 | METHOD AND APPARATUS FOR MULTIMODE WIDEBAND OSCILLATOR - A multimode, multicore inductor-capacitor (LC) oscillator having an increased oscillation frequency tuning range, and related method, are provided. The oscillation frequency tuning range of existing oscillators is limited. LC oscillators are known to have very low phase noise but a narrow frequency tuning range. The present oscillator has at least two LC oscillator cores and is capable of operating in multiple different modes of oscillation thereby increasing its overall oscillation frequency tuning range. A set of programmable amplifier pairs is used to force particular relative oscillation phases at the nodes of the multiple cores of the oscillator to realize one or more additional modes of oscillation for the oscillator. The additional oscillation mode increases the frequency tuning range of the oscillator. | 2020-05-14 |
20200153387 | Stacked-Die Bulk Acoustic Wave Oscillator Package - A stacked-die oscillator package includes an oscillator circuit die having inner bond pads, and outer bond pads, and a bulk acoustic wave (BAW) resonator die having a piezoelectric transducer with a first and second BAW bond pad on a same side coupled to a top and bottom electrode layer across a piezoelectric layer. A first metal bump is on the first BAW bond pad and a second metal bump is on the second BAW bond pad flip chip bonded to the inner bond pads of the oscillator circuit die. A polymer material is in a portion of a gap between the BAW and oscillator circuit die. | 2020-05-14 |
20200153388 | SELF ENABLING SIGNAL CONDITIONER FOR CONDITIONING A CRYSTAL OSCILLATOR OUTPUT SIGNAL INTO A COMPLIANT CLOCK SIGNAL - A signal conditioner for conditioning a differential oscillation signal into a compliant clock signal including first and second signal paths and a coincident gate. The first signal path toggles a first binary signal in response to the differential oscillation signal when the differential oscillation signal reaches a small amplitude level. The second signal path toggles a second binary signal in response to the differential oscillation signal only when the differential oscillation signal reaches a large amplitude level that is greater than the small amplitude level. The coincident gate toggles the clock signal high only when the first and second binary signals are both high, and toggles the clock signal low only when the first and second binary signals are both low. When the clock signal begins toggling, it may skip one or more cycles but is nonetheless compliant in terms of timing and amplitude. | 2020-05-14 |
20200153389 | Doherty Amplifier with Adjustable Alpha Factor - A Doherty amplifier circuit having a tunable impedance and phase (“TIP”) circuit to provide an adjustable alpha factor, which allows for a selection of power added efficiency (PAE) curves that are useful for applications having different modulations or to meet other criteria. Embodiments include a Doherty amplifier having a TIP circuit that provides for tunability of the impedance Z | 2020-05-14 |
20200153390 | BIAS CIRCUIT - A bias circuit includes a buffer, a temperature compensation circuit, and a feedback circuit. The buffer includes a first transistor. A first terminal of the first transistor and a second terminal of the first transistor are electrically connected with a first voltage source. A third terminal of the first transistor is electrically connected with an external amplifier. The temperature compensation circuit includes a second transistor and a temperature compensation component. A first terminal of the second transistor is electrically connected with the third terminal of the first transistor. Two terminals of the temperature compensation component are electrically connected with a second terminal of the second transistor and the first voltage source respectively. A third terminal of the second transistor is grounded. The feedback circuit is electrically connected with the first terminal of the first transistor and the second terminal of the second transistor. | 2020-05-14 |
20200153391 | NON-LINEAR HIGH-FREQUENCY AMPLIFIER ARRANGEMENT - A non-linear high-frequency amplifier arrangement suitable for generating power outputs >1kW at frequencies of >1MHz for plasma excitation is provided. The arrangement includes two LDMOS transistors each connected by their source connection to aground connection point, where the LDMOS transistors have the same design and are arranged in an assembly, a power transformer whose primary winding is connected to drain connections of the LDMOS transistors, a signal transformer whose secondary winding is connected by a first end to a gate connection of one LDMOS transistor and by a second end to a gate connection of the other LDMOS transistor, and a feedback path from the drain connection to the gate connection of each of the LDMOS transistors. | 2020-05-14 |
20200153392 | LOAD BOX AND SOUND QUALITY IMPROVING METHOD - To improve voice sound quality using a vacuum tube amplifier. A reactive load that has impedance characteristics, in which impedance characteristics in a first frequency band includes a first impedance characteristic pattern selected from a plurality of first impedance characteristic pattern candidates on the basis of a type of a vacuum tube amplifier, and impedance characteristics in a second frequency band includes a second impedance characteristic pattern selected from a plurality of second impedance characteristic patterns on the basis of the type of the vacuum tube amplifier, outputs a signal that responds to a sound signal output from the vacuum tube amplifier in accordance with the impedance characteristics and performs correction on an output signal of the reactive load. | 2020-05-14 |
20200153393 | AMPLIFIERS - This application relates to amplifier circuits for amplifying an audio signal. An amplifier circuit ( | 2020-05-14 |
20200153394 | RADIO FREQUENCY AMPLIFIER CIRCUITRY - Radio frequency (RF) amplifier circuitry for amplifying an RF input signal to provide an RF output signal includes target envelope supply voltage compensation circuitry, envelope tracking power supply circuitry, and power amplifier circuitry. The target envelope supply voltage compensation circuitry is configured to compensate a target envelope supply voltage to provide a compensated target envelope supply voltage, which is used by the envelope tracking power supply circuitry to provide an output envelope supply voltage. The power amplifier circuitry is configured to amplify the RF input signal using a power amplifier envelope supply voltage. The power amplifier envelope supply voltage is different from the output envelope supply voltage due to a parasitic impedance. The target envelope supply voltage compensation circuitry is configured to compensate the target envelope supply voltage to reduce an error between the target envelope supply voltage and the power amplifier envelope supply voltage. | 2020-05-14 |
20200153395 | WIDE BAND BUFFER WITH DC LEVEL SHIFT AND BANDWIDTH EXTENSION FOR WIRED DATA COMMUNICATION - A wide band communications circuit buffer can include a pair of NPN bipolar transistor emitter followers deployed as a voltage buffer and disposed at inputs before and outputs after an equalization module, and a pair of diode connected NPN transistors deployed as a level shifter and disposed following the emitter followers before an output of the wide band driver to keep an output level at the output of the wide band buffer close to a desired level. Resistors connected between emitters and a V | 2020-05-14 |
20200153396 | DIGITAL AMPLIFIER AND OUTPUT DEVICE - A digital amplifier that minimizes and restricts an analog signal system and uses a feedback signal and a dither signal is achieved. A pulse width modulator that adjusts a pulse width of a digital signal, a switching circuit that amplifies an output signal from the pulse width modulator, and a feedback signal generation unit that generates a feedback signal based on an output signal from the switching circuit are included, the pulse width modulator adjusts the pulse width of the digital signal with reference to the feedback signal, and the feedback signal generation unit includes a first amplifier that outputs a first amplified signal in which a difference between the output signal from the switching circuit and one of a reference voltage and a dither signal is amplified and a second amplifier that amplifies a difference between the first amplified signal and the other of the dither signal and the reference voltage and outputs the amplified difference as the feedback signal. | 2020-05-14 |
20200153397 | CLASS D AMPLIFIERS - The present disclosure relates to Class D amplifier circuitry comprising: an input for receiving an input signal; first and second output nodes for driving a load connected between the first and second output nodes. A first driver stage is provided for switching the first node between a first supply rail and a second supply rail, and a second driver stage is provided for switching the second node between the first supply rail and the second supply rail. The Class D amplifier circuitry also includes first driver control circuitry configured to receive a first carrier wave and control the switching of the first driver stage based in part on the first carrier wave; second driver control circuitry configured to receive a second carrier wave and control the switching of the second driver stage based in part on the second carrier wave; and a carrier wave generator configured to provide the first carrier wave and the second carrier wave. A phase shift between the first carrier wave and the second carrier wave is adjustable responsive to a mode control signal. | 2020-05-14 |
20200153398 | RADIO-FREQUENCY CIRCUIT AND COMMUNICATION DEVICE - A radio-frequency circuit includes a power amplifier circuit, a first switch, a duplexer, a second switch, a capacitor element, and a controller. The first switch includes a first common terminal and first selection terminals. An output signal of the power amplifier circuit is applied to the first common terminal. The duplexer is a filter connected at one terminal to the first selection terminal. The second switch includes a second common terminal and plural second selection terminals. The plural second selection terminals includes the second selection terminal connected to the other terminal of the duplexer. The capacitor element is built in the first switch. The controller controls the gain of the power amplifier circuit in accordance with a monitor signal obtained via the capacitor element so as to regulate the maximum output level of the power amplifier circuit. | 2020-05-14 |
20200153399 | AUTO ZERO OFFSET CURRENT MITIGATION AT AN INTEGRATOR INPUT - A feedback stage for an integrator circuit is provided. The integrator receives a first input current and a second input current that include respective measurement current components and an offset current component. The integrator integrates the first input current and the second input current and generates a first output voltage and a second output voltage. The feedback stage including a transconductance amplifier detects a difference between the first output voltage and the second output voltage and sinks or sources a first output current and a second output current based on the difference between the first output voltage and the second output voltage. The first output current is additively combined with the first input current and the second output current is additively combined with the second input current to mitigate the offset current component at an input of the integrator. | 2020-05-14 |
20200153400 | DISTORTION IMPARTING DEVICE AND DISTORTION IMPARTING METHOD - A distortion imparting device capable of obtaining a natural distortion effect even when output is decreased is provided. The distortion imparting device includes a first amplification part which attenuates an input audio signal on the basis of an attenuation factor set by a user and amplifies the attenuated audio signal, a second amplification part serially connected to the first amplification part, and a limiting part which is connected between an output terminal of the first amplification part and an input terminal of the second amplification part and limits an input voltage of the second amplification part to a predetermined clip voltage, wherein the limiting part determines the clip voltage on the basis of the attenuation factor. | 2020-05-14 |
20200153401 | Signal Processing Method, Signal Processing Device And Signal Processing System - A signal processing method, device and system are provided. A fitting amplitude of an input signal is acquired by performing fitting on the input signal according to a predetermined fitting model. A determination result about whether to apply a gain on the input signal is determined based on the fitting amplitude, and a gain signal is obtained based on the determination result. A delay signal acquired by delaying the input signal is processed based on the gain signal, to obtain an output signal. With the signal processing device and system, a simple structure and a small calculation amount are achieved, and the signal processing efficiency and the signal processing effect are improved. | 2020-05-14 |
20200153402 | DYNAMIC TIME-WEIGHTED SYSTEMS AND METHODS FOR MANAGEMENT OF ACOUSTIC EXPOSURE - Workplace safety is a principal concern in many environments. Protecting user ears from damage due to extended exposure to unacceptably high sound volume serves as an important component to workplace safety. Monitoring a device, such as a phone, utilized by a user often provides an incomplete picture of the sound level presented to the user. As provided herein, monitoring a user's sound exposure on one device may cause the sound level presented to the user from a second device to become limited. Additionally, over time the sound level limits may be adjusted based on the cumulative historic sound exposure. As a result, the user may avoid exposure to unacceptably high sound levels originating from more than one source and/or over an extended period of time. | 2020-05-14 |
20200153403 | VARIABLE-PHASE AMPLIFIER CIRCUITS AND DEVICES - Variable-phase amplifier circuits and devices. In some embodiments, an amplifier can include a variable-gain stage having a plurality of switchable amplification branches, with each being capable of being activated, such that a combination of one or more activated amplification branches provides respective gain level and phase shift. The plurality of switchable amplification branches can be configured such that the phase shift provided by each combination of one or more activated amplification branches compensates for a phase shift associated with the amplifier operating with the respective gain level of the variable-gain stage. | 2020-05-14 |
20200153404 | Automatic Gain Control for Passive Optical Network - An automatic gain control circuit controls a gain of a burst mode amplifier. A peak detector includes an input coupled to an output of the amplifier. A plurality of resistors is coupled in series between an input of the first amplifier and the output of the first amplifier for setting the gain of the amplifier. A first gain stage is responsive to an output signal of the peak detector for disabling a first resistor of the plurality of resistors to alter the gain of the first amplifier. A second gain stage is responsive to the output signal of the peak detector for disabling a second resistor of the plurality of resistors to alter the gain of the first amplifier. A comparator responsive to the output signal of the peak detector causes a pulse generator to enable the first gain stage and second gain stage each burst mode. | 2020-05-14 |
20200153405 | WIRING STRUCTURE FOR AUDIO SIGNAL CONVERSION APPARATUS FOR IMPROVING CROSS-TALK, AND AUDIO SIGNAL CONVERSION APPARATUS - The embodiments provide an apparatus for converting an audio signal, in which a left channel line and a right channel line connected to an amplification unit of an audio signal converting apparatus are covered with the ground and connected to a chassis of the audio signal converting apparatus, and a digital signal line and an analog signal line are disposed to be spaced apart from a substrate to improve crosstalk and remove noise. | 2020-05-14 |
20200153406 | METHOD AND APPARATUS TO EVALUATE AUDIO EQUIPMENT FOR DYNAMIC DISTORTIONS AND OR DIFFERENTIAL PHASE AND OR FREQUENCY MODULATION EFFECTS - A system is provided to analyze cross-modulation distortion in audio devices, which may include testing with audio frequencies. One or more distortion signals from the audio device may be measured for an amplitude, phase, and or frequency modulation effect. In another embodiment a musical signal may be used as a test signal. Providing additional test signals to the audio device can induce a time varying cross-modulation distortion signal from an output of the audio device. Also utilizing at least one additional filter, filter bank, demodulator and or frequency converter and or frequency multiplier provides extra examination of distortion. Also frequency and or phase response can be measured with the presence of a de-sensing signal and or another signal that induce near slew rate limiting or near overload condition of the device under test. Another system is provided to analyze modulation index differences between input and output signals for a test signal including modulation. | 2020-05-14 |
20200153407 | ELECTRONIC PACKAGE INCLUDING CAVITY FORMED BY REMOVAL OF SACRIFICIAL MATERIAL FROM WITHIN A CAP - An electronic component comprises a substrate including a main surface on which a functional unit is formed and a cap layer defining a cavity enclosing and covering the functional unit. The cap layer is provided with holes communicating an inside of the cavity with an outside of the cavity. A resin layer covers the cap layer and the main surface and includes one or more bores and a solder layer having a thickness less than a thickness of the resin layer disposed within the one or more bores. | 2020-05-14 |
20200153408 | TUNING FORK-TYPE VIBRATOR AND MANUFACTURING METHOD FOR THE SAME - A tuning fork-type vibration piece is provided, in which a cushioning portion is formed on the base of a package and allowed to contact parts for contact of arm portions which are any parts but their edges, and the parts for contact of the arm portions that contact the cushioning portion are electrodeless regions, which prevents the risk of frequency fluctuations caused by any electrode being chipped off by contact with the cushioning portion. | 2020-05-14 |
20200153409 | SURFACE ACOUSTIC WAVE FILTER PACKAGE STRUCTURE AND METHOD OF MANUFACTURING THE SAME - A surface acoustic wave (SAW) filter package structure includes a dielectric substrate having a dielectric layer, a first patterned conductive layer, a second patterned conductive layer, and a conductive connection layer. The conductive connection layer is electrically connected between the first patterned conductive layer and the second patterned conductive layer, which are disposed at opposite sides of the dielectric layer. The second patterned conductive layer has a finger electrode portion. An active surface of a chip is faced toward the finger electrode portion. A polymer sealing frame is disposed between the chip and the dielectric substrate and surrounds the periphery of the chip to form a chamber together with the chip and the dielectric substrate. The mold sealing layer is disposed on the dielectric substrate and covers the chip and the polymer sealing frame. A manufacturing method of the SAW filter package structure is also disclosed. | 2020-05-14 |
20200153410 | APPARATUS AND METHOD FOR CONTROLLING A RESONATOR - A method and apparatus for modifying or controlling a resonator connected to a signal loop having an input ( | 2020-05-14 |
20200153411 | MULTIPLEXER - A multiplexer includes a filter arranged in a first path, a filter arranged in a second path, and a filter arranged in a third path, in which a frequency of intermodulation distortion (IMD) generated from a transmission signal in a pass band of the filter and a transmission signal in a pass band of the filter is included in a pass band of the filter. The filters includes one or more series arm resonant circuits arranged on the first path and one or more parallel arm resonant circuits arranged in a path connecting corresponding nodes on the first path and the ground, in which at least one resonant circuit among the resonant circuits closest to a common terminal in one or more series arm resonant circuits and one or more parallel arm resonant circuits is defined by a divided resonator group defined by multiple divided resonators connected in series. | 2020-05-14 |
20200153412 | RADIO FREQUENCY FILTER, MULTIPLEXER, RADIO FREQUENCY FRONT-END CIRCUIT, AND COMMUNICATION DEVICE - A radio frequency (RF) filter having a first passband and including a first circuit connected to a first node and a second node disposed on a path that connects a first terminal and a second terminal, and a second circuit connected to the first node and the second node. The first circuit includes a first filter having a second passband that includes a portion of a frequency range of the first passband and a bandwidth narrower than a bandwidth of the first passband. The second circuit includes a second filter having a third passband that includes a portion of a frequency range of the first passband and has a bandwidth narrower than the bandwidth of the first passband. The RF filter also includes a first phase shifter connected to a first terminal of the second filter; and a second phase shifter connected to a second terminal of the second filter. | 2020-05-14 |
20200153413 | MULTIPLEXER, RADIO FREQUENCY CIRCUIT, AND COMMUNICATION DEVICE - A multiplexer includes a filter ( | 2020-05-14 |
20200153414 | MULTIPLEXER, RADIO-FREQUENCY (RF) FRONT-END CIRCUIT, AND COMMUNICATION APPARATUS - A multiplexer includes a first reception-side filter and a second reception-side filter whose passband has frequencies higher than the first reception-side filter. The first reception-side filter includes a series arm resonator provided on a first path, and parallel arm resonators provided on a path electrically connecting the first path and ground. A direction connecting tips of a plurality of electrode fingers included in each resonator crosses an elastic wave propagating direction at a certain angle. The parallel arm resonator closest to a common connection terminal does not include third electrode fingers, and the other parallel arm resonators include third electrode fingers. | 2020-05-14 |
20200153415 | TECHNIQUES FOR INPUT FORMATTING AND COEFFICIENT SELECTION FOR SAMPLE RATE CONVERTER IN PARALLEL IMPLEMENTATION SCHEME - A sample rate converter (“SRC”) for implementing a rate conversion L/M is described wherein data is input to the SRC at an input rate (“F | 2020-05-14 |
20200153416 | CURRENT CONTROLLED OSCILLATOR - A temperature compensated current controlled oscillator (CCO) including a first current generator configured to produce a proportional to absolute temperature (PTAT) current based upon a trim signal, a second current generator configured to produce a complementary to absolute temperature (CTAT) current based upon a temperature measurement, and a ring oscillator configured to receive the PTAT current and the CTAT current and to produce a frequency signal based upon the PTAT current and the CTAT current. | 2020-05-14 |
20200153417 | OSCILLATOR AND METHOD FOR OPERATING AN OSCILLATOR - Embodiments of an oscillator and a method of operating an oscillator are disclosed. In an embodiment, an oscillator can include a ring oscillator core, a control circuit, and a timer that coordinates timing of the control circuit to avoid a current resulting from a voltage level associated with an output of the ring oscillator core during a startup and to allow the ring oscillator core to operate with a low startup current and a low operational power. | 2020-05-14 |
20200153418 | ULTRA-LOW VOLTAGE LEVEL SHIFTER - The present disclosure relates to a structure which includes a voltage level shifter circuit which includes a first current mirror leg circuit and a second current mirror leg circuit, the first current mirror leg circuit receives an input signal on a low voltage power supply and level shifts the input signal to a high voltage power supply which is at a greater voltage than the low voltage power supply, and the high voltage power supply is output from the second current mirror leg circuit. | 2020-05-14 |
20200153419 | OSCILLATOR DEVICE - An oscillator device based on a ring oscillator, in which temperature-dependent fluctuations in the frequency of the clock signal of a ring oscillator can be compensated by adapting the supply voltage of the ring oscillator. For this purpose, the supply voltage of the ring oscillator is adapted as a function of an ambient temperature, using a voltage supply circuit. | 2020-05-14 |
20200153420 | High Speed Voltage Level Translator Including an Automatically Bootstrapped Cascode Driver - A method for high-speed voltage level translation includes biasing a high-voltage (HV) gate of an HV transistor to an intermediate voltage with a bias device. A low-voltage (LV) transistor is activated with a positive voltage transition applied to an LV gate of the LV transistor, wherein the HV transistor is connected in series between an output and an LV drain of the LV transistor. The intermediate voltage is bootstrapped to a bootstrapped voltage in response to the positive voltage transition on the LV gate coupled to the HV gate through a capacitor therebetween. The output is discharged. A time constant, defined by a resistance of the bias device and a capacitance of the capacitor, is greater than a minimum time constant, thereby maintaining the bootstrapped voltage on the HV gate at or above a drive voltage for a minimum period to discharge the output to a minimum voltage. | 2020-05-14 |
20200153421 | SEMICONDUCTOR APPARATUS INCLUDING CLOCK PATHS AND SEMICONDUCTOR SYSTEM INCLUDING THE SEMICONDUCTOR APPARATUS - A semiconductor apparatus includes a first clock path which generates a first output clock signal by delaying a first phase clock signal, and a second clock path which generates a second output clock signal by delaying a second phase clock signal based on a delay compensation signal. The oscillating path generation circuit forms oscillating paths with the first clock path and the second clock path. The delay information generation circuit generates a delay compensation signal based on oscillating signals generated by forming the oscillating paths. | 2020-05-14 |
20200153422 | SIGNAL RECEIVING CIRCUIT, AND SEMICONDUCTOR APPARATUS AND SEMICONDUCTOR SYSTEM USING THE SIGNAL RECEIVING CIRCUIT - A signal receiving circuit includes a buffer, a sampling circuit, and an equalizer. The buffer generates first and second amplified signals by amplifying a currently-inputted received signal in synchronization with an amplification clock signal. The sampling circuit generates an output signal by sampling the first and second amplified signals in synchronization with a sampling clock signal. The equalizer changes voltage levels of the first and second amplified signals based on third and fourth amplified signals which are generated from a previously-inputted received signal in synchronization with the amplification clock signal. | 2020-05-14 |
20200153423 | POWER INVERTER FOR REDUCING TOTAL HARMONIC DISTORTION VIA DUTY CYCLE CONTROL - A power inverter includes primary switches, a transformer, a rectifier, a high voltage (HV) bus, an H-bridge, a detector, and a feedback controller. The transformer receives a switched direct current (DC) signal from a battery. The H-bridge outputs an AC signal to a stepped load. The detector detects a step-up load change by monitoring the stepped load. The feedback controller regulates a duty cycle of the AC signal, thereby reducing total harmonic distortion (THD) affecting the power inverter and the stepped load. The feedback controller further regulates the duty cycle of the AC signal by temporarily setting the primary switching duty cycle at a maximum allowable level in response to the step-up load change. | 2020-05-14 |
20200153424 | SWITCHING APPARATUS - There is provided a switching apparatus ( | 2020-05-14 |
20200153425 | Positive Logic Switch with Selectable DC Blocking Circuit - A positive-logic FET switch stack that does not require a negative bias voltage, exhibits high isolation and low insertion/mismatch loss, and may withstand high RF voltages. Embodiments include a FET stack comprising series-coupled positive-logic FETs (i.e., FETs not requiring a negative voltage supply to turn OFF), series-coupled on at least one end by an “end-cap” FET of a type that turns OFF when its V | 2020-05-14 |
20200153426 | SEMICONDUCTOR INTEGRATED CIRCUIT, DRIVING CIRCUIT FOR HIGH-SIDE TRANSISTOR, AND CONTROLLER FOR DC/DC CONVERTER - A semiconductor integrated circuit includes a reference circuit including: a first NMOS transistor and a second NMOS transistor having a gate connected in common; and a resistor having one end connected to a source of the first NMOS transistor and the other end connected to a source of the second NMOS transistor, wherein the first NMOS transistor and the second NMOS transistor are formed of floating NMOS transistors | 2020-05-14 |
20200153427 | Driving D-Mode FETS in Half-Bridge Driver Configuration - Methods and devices to drive D-mode and E-mode power FETs are described. The disclosure teaches how to apply negative voltages across gate-source of D-mode FETs to turn such FETs off whenever needed. The presented method and devices can also be used in applications where overdriving D-mode FETs to achieve improved on resistance is desired. | 2020-05-14 |