39th week of 2017 patent applcation highlights part 62 |
Patent application number | Title | Published |
20170279345 | ACTIVE COMMON MODE CANCELLATION - In some examples, a circuit is configured to generate a first signal based at least in part on an input signal, wherein the first signal comprises a common mode signal and a load signal. The circuit is further configured to generate a second signal based at least in part on the input signal, wherein the second signal comprises an inverted version of the common mode signal. The circuit is further configured to apply the first signal and the second signal to a load. | 2017-09-28 |
20170279346 | SNUBBER CIRCUIT - The present disclosure provides a snubber circuit, wherein the snubber circuit is used to an electronic equipment including a pulse signal generator, a driving power source and a load, and the snubber circuit includes a current detection module, a control module and a snubber module. The current detection module is connected to the driving power source and detects the driving current of the driving power source. The control module is connected to the current detection module and the snubber module and adjusts a center frequency of the snubber module according to the driving current detected by the current detection module. The snubber module is connected to an output terminal of the pulse signal generator and filters the noise of the pulse signal. Therefore, the present disclosure may dynamically adjust a center frequency of a filtering, so as to increase a filtering performance and increase an efficiency of suppressing EMI. | 2017-09-28 |
20170279347 | CHARGE PUMP EFFECT COMPENSATION FOR HIGH FREQUENCY ISOLATION TRANSFORMER IN LIGHTING DEVICE POWER SUPPLIES - An apparatus ( | 2017-09-28 |
20170279348 | BI-DIRECTIONAL MULTI-MODE CHARGE PUMP - Some embodiments include apparatus and methods using a charge pump coupled to a first supply power node and a second supply power node. The charge pump is arranged to transfer charge from the first supply power node to the second supply power node during a first time interval and to transfer charge from the second supply power node to the first supply power node during a second time interval. | 2017-09-28 |
20170279349 | HIGH EFFICIENCY CHARGE PUMP WITH AUXILIARY INPUT OPERATIVE TO OPTIMIZE CONVERSION RATIO - Switched capacitor circuit architectures that may enable high efficiency step-up or step-down dc-dc conversion from a primary, fixed supply input voltage using a four-switch switched capacitor topology and a separate auxiliary supply input voltage. The auxiliary supply input voltage can be optimized within the system or chosen from among other readily available supplies in the system to achieve the highest efficiency conversion ratio, without modifying the switch and flying capacitor arrangement. The auxiliary supply input voltage may be applied to other fixed conversion ratio converters to achieve higher efficiency conversion. | 2017-09-28 |
20170279350 | FREQUENCY MODULATION BASED VOLTAGE CONTROLLER CONFIGURATION - A voltage converter can be switched among two or more modes to produce an output voltage tracking a reference voltage that can be of an intermediate level between discrete levels corresponding to the modes. One or more voltages generated from a power supply voltage, such as a battery voltage, can be compared with the reference voltage to determine whether to adjust the mode. The reference voltage can be independent of the power supply voltage. Further, the voltage converter may implement frequency modulation and a pulse skipping mode to improve the efficiency of switching operational states of the voltage converter. | 2017-09-28 |
20170279351 | STABILIZED NON-INDUCTIVE VOLTAGE BOOST CONVERTER OPERATING AT MOS SUB-THRESHOLD VOLTAGE FROM ANALAGOUS MICROPOWER PYROELECTRIC DEVICE - Disclosed herein is a non-Inductive voltage boost-converter (NVBC) for micro-power energy harvesting systems for energy storage and delivery applications. Current devices deliver a wide-range of micro-power having only up to 0.8V peak-voltage, but nominally 0.45V in lab test conditions. This voltage is not adequate in charging storage cells such as rechargeable batteries and also driving electronic circuits. Technology is in demand where a boost-converter must operate at MOS sub-threshold voltage (Sub-V | 2017-09-28 |
20170279352 | DUTY CYCLE ESTIMATOR - A duty cycle estimation circuit includes a latch circuit that receives a clock signal for a voltage regulator. The latch circuit outputs a duty cycle estimate. The duty cycle estimation circuit also includes a low pass filter coupled to an output of the latch circuit to receive the duty cycle estimate. The duty cycle estimation circuit further includes a comparator that receives, as input, an output of the low pass filter and a voltage regulator output. The comparator feeds back a feedback signal to the latch circuit. | 2017-09-28 |
20170279353 | SIGNAL GENERATION DEVICE AND METHOD FOR CONTROLLING OUTPUT VOLTAGE OF REGULATOR - A signal generation device outputs a signal based on a predetermined pattern with a logic transition to a predetermined external device. The signal generation device comprises an output driver which outputs respective signals based on at least two test patterns different in the frequency of the logic transition respectively to the predetermined external device, a regulator which supplies power to the output driver, a current compensation circuit which generates a compensation current, and a control circuit which adjusts a value of the compensation current. The control circuit adjusts, for each test pattern, the value of the compensation current such that a difference value calculated based on output voltages of the regulator becomes a determination criteria value or less. | 2017-09-28 |
20170279354 | Hybrid Capacitive-Inductive Voltage Converter - An inverting buck voltage converter constructed of a switched-mode hybrid topology, with a capacitive input stage and an inductive output stage. The input stage operates as a charge pump to charge a flying capacitor connected in series with an inductor in the output stage. Clock circuitry generates first and second non-overlapping clock phases. In the second clock phase, the flying capacitor is charged to the input voltage, with a flying node between the flying capacitor and the output inductor connected at ground through a rectifier, while in the first clock phase, the flying capacitor supports the inductor current. The arrangement of the flying capacitor and inductor is such that the voltage appearing at the output terminal is inverted from the input voltage. Continuous output current is provided. Current limiting techniques protect the flying capacitor from overcurrent conditions. | 2017-09-28 |
20170279355 | VARIABLE FREQUENCY SOFT-SWITCHING CONTROL OF A BUCK CONVERTER - A system and method are provided for controlling a modified buck converter circuit. A pull-up switching mechanism that is coupled to an upstream terminal of an inductor within a modified buck converter circuit is enabled. A load current at the output of the modified buck regulator circuit is measured. A capacitor current associated with a capacitor that is coupled to a downstream terminal of the inductor is continuously sensed and the pull-up switching mechanism is disabled when the capacitor current is greater than a sum of the load current and an enabling current value. | 2017-09-28 |
20170279356 | DC/DC CONVERTER - A DC/DC converter in which a both-end voltage of each of capacitors can be safely uniformalized while an over current, which is passed through between the capacitors composing the DC/DC converter, is prevented. In a DC/DC converter which includes a plurality of switching elements, a reactor, a low-voltage side capacitor, a high-voltage side capacitor, a charge-discharge capacitor, and a controller which drives and controls the switching elements, the controller performs soft start control in which a duty ratio of at least one of the switching elements is gradually varied from 0% to 100%, and the switching element, in which the soft start control is not performed during the term of the soft start control, is turned off. | 2017-09-28 |
20170279357 | CURRENT DETECTION CIRCUIT AND DCDC CONVERTER INCLUDING THE SAME - According to an embodiment, a current detection circuit includes a transistor, an operational amplifier, and a transistor. In the transistor, the source and the gate are coupled to the source and the gate of a transistor which is provided on a high side of a drive circuit. The operational amplifier amplifies a potential difference between a drain voltage of the transistor and a drain voltage of the transistor. The transistor is provided over a current path through which a current flowing to the transistor flows, and which has the gate to which an output voltage of the operational amplifier is supplied. A value of the current flowing Through The transistor is detected based on a value of the current flowing through the transistor. | 2017-09-28 |
20170279358 | VOLTAGE REGULATOR - To provide a voltage regulator which is capable of testing a phase compensation capacitor without impairing stability as a regulator and prevents a chip area from being increased. A voltage regulator is configured to be equipped with a phase compensation capacitance test circuit for a phase compensation circuit and a negative voltage detection circuit for an external output voltage adjustment terminal and to apply a negative voltage to the external output voltage adjustment terminal to thereby start up the phase compensation capacitance test circuit, and measure the discharge time or current of a phase compensation capacitor to thereby test whether the phase compensation capacitor is good or not. | 2017-09-28 |
20170279359 | NON-INVERTING BUCK-BOOST (BOB) AUTOMATIC PASS-THROUGH MODE - An apparatus improves efficiency of a non-inverting buck-or-boost regulator by reducing an amount of switching of the buck-or-boost regulator. A high side buck transistor and a high side boost transistor of the buck-or-boost regulator are turned on. A low side buck transistor and a low side boost transistor are turned off. The turning on and turning off short an input voltage node to an output voltage node of the buck-or-boost regulator to prevent switching of the high side buck transistor and the high side boost transistor. The turning on and turning off are based on a voltage difference between the input voltage node and the output voltage node. | 2017-09-28 |
20170279360 | CONTROL BOARD OF POWER CONVERSION DEVICE - A control board of a power conversion device, the control board includes a board main body, a plurality of drive circuits, a power source control circuit, an insulation region, a plurality of insulation transformers, and a connecting line that electrically connects the plurality of insulation transformers and the power source control circuit to each other, and at least a part of which extends in a region in inner layers of the board main body that overlaps the insulation region when viewed in a perpendicular direction with respect to the surface of the board main body. | 2017-09-28 |
20170279361 | RESONANT DC TO DC POWER CONVERTER - A direct current (DC) to DC power converter includes a first converter for converting a first DC bus voltage into a first high frequency AC voltage and a second converter for converting a second high frequency alternating current (AC) voltage into a second DC bus voltage. The DC to DC converter also includes a resonant circuit for coupling the first bus converter and the second bus converter and a controller for providing switching signals to the first converter and the second converter to operate the power converter in a soft switching mode. The resonant circuit includes a high frequency transformer coupled between the first converter and the second converter and an auxiliary converter coupled in series with a first resonant inductor and the high frequency transformer. The resonant circuit further includes second inductor coupled across a first winding of the high frequency transformer. An auxiliary voltage generated by auxiliary converter is added in series with an output voltage of the first converter. | 2017-09-28 |
20170279362 | SYSTEMS AND METHODS FOR VOLTAGE REGULATION OF PRIMARY SIDE REGULATED POWER CONVERSION SYSTEMS WITH COMPENSATION MECHANISMS - Systems and methods are provided for voltage regulation of power conversion systems. An example system controller includes: a first sampling component configured to sample a sensing signal and determine a compensation signal based on at least in part on the sensing signal, the sensing signal being associated with a first current flowing through a primary winding of a power conversion system; a signal processing component configured to receive a feedback signal and the compensation signal and generate a first signal based at least in part on the feedback signal and the compensation signal, the feedback signal being associated with an auxiliary winding coupled with a secondary winding of the power conversion system; an error amplifier configured to receive the first signal and a reference signal and generate an amplified signal based at least in part on the first signal and the reference signal. | 2017-09-28 |
20170279363 | INSULATED SYNCHRONOUS RECTIFICATION DC/DC CONVERTER - An insulated synchronous rectification DC/DC converter is provided. A feedback circuit drives a light-emitting element of a first photocoupler such that the output voltage V | 2017-09-28 |
20170279364 | REGENERATION CIRCULATOR, HIGH-FREQUENCY POWER SUPPLY DEVICE, AND HIGH-FREQUENCY POWER REGENERATION METHOD - An excessive voltage rise of load voltage, caused by an impedance mismatching on a transmission path, is prevented, and high-frequency power is regenerated. A parallel impedance is connected to the transmission path during the voltage rise, thereby regenerating voltage caused by a standing wave and preventing excessive load voltage, together with enhancing energy usage efficiency. Establishing the parallel impedance for the load impedance, on the transmission path between the high-frequency amplifier circuit of the high-frequency power supply device and the high-frequency load, reduces impedance at the connecting position to prevent generation of excessive voltage on the transmission path, and high-frequency power is regenerated from the transmission path by the parallel impedance. | 2017-09-28 |
20170279365 | CONTROLLING A LOAD COMMUTATED CONVERTER DURING UNDERVOLTAGE - A load commutated converter interconnects an AC power grid with an AC load and comprises a grid-side converter, a DC link and a load-side converter. A method for controlling the load commutated converter comprises: determining a gridside firing angle for the grid-side converter; determining a load-side firing angle for the load-side converter; determining a grid voltage of the AC power grid; modifying the grid-side firing angle and/or the load-side firing angle based on the grid voltage, such that when an undervoltage condition in the AC power grid occurs, the operation of the load commutated converter is adapted to a change in the grid voltage; and applying the grid-side firing angle to the grid-side converter and the load-side firing angle to the load-side converter. | 2017-09-28 |
20170279366 | POWER MODULE - A power module includes an inverter circuit and a pair of conductors that sandwich the inverter circuit. The inverter circuit includes a positive bus bar, a negative bus bar, output bus bars, and element pairs. The element pair has such a configuration that a semiconductor element coupled to the positive bus bar and a semiconductor element coupled to the negative bus bar are coupled to each other via the output bus bar. The semiconductor elements each includes a switching element and a diode connected in antiparallel with the switching element. The positive bus bar, the element pair, and the negative bus bar define a conductive path exhibiting a loop-like shape facing the conductors inside the above-mentioned region. | 2017-09-28 |
20170279367 | High-Power Single-Stage LED Driver with Bipolar Ripple Cancellation - Provided are circuits and methods for a power converter that converts AC input power into DC output power using a first output circuit that provides a first output comprising a DC voltage with a first AC voltage ripple and a second output circuit including a floating capacitor and one or more power switching device, and provides a second output comprising a second AC voltage ripple, wherein the first output and the second output are connected together in series, such that the first AC voltage ripple is substantially cancelled and substantially ripple-free DC output power is provided. Embodiments significantly reduce the total output capacitance requirement without sacrificing power factor, thus avoiding the need for electrolytic capacitors and enabling the use of long-life film capacitors. The circuits and methods are particularly suitable for use in applications where ripple-free high power and high reliability are required, such as in high power LED lighting. | 2017-09-28 |
20170279368 | MULTI-USE DRIVER CIRCUITS - In some implementations, a device that powers a load includes a first terminal to couple with an alternating current (AC) power source, a second terminal to couple with the AC power source, and a full bridge rectifier arranged to receive power from the AC power source and provide direct current (DC) power between a positive node and a negative node. The device includes a first capacitor coupled in series between the full bridge rectifier and the first terminal or the second terminal, a load coupled between the positive node and negative node of the rectifier, and a second capacitor coupled between the positive node and negative node of the rectifier, in parallel with the load. | 2017-09-28 |
20170279369 | POWER TRANSFORMER - A transformer system includes: a main transformer including a primary winding coupled to AC mains and a secondary winding; a load circuit including a load switch configured to be coupled to a load, the load circuit being coupled to the secondary winding of the main transformer; an auxiliary power supply coupled to AC mains; a controller coupled to an output of the auxiliary power supply; an electronic switch between the AC mains and the primary winding of the main transformer and configured to be controlled by the controller; and a load detector coupled to the load circuit and configured to detect whether the load is connected to the main transformer and to output a load signal to the controller in accordance with whether or not the load is connected to the main transformer, wherein the controller is configured to control the electronic switch in accordance with the load signal. | 2017-09-28 |
20170279370 | SPACE VECTOR MODULATION FOR MATRIX CONVERTER AND CURRENT SOURCE CONVERTER - A converter includes a transformer including primary windings and secondary windings, switches connected to the primary windings, an output inductor connected to the secondary windings, and a controller connected to the switches. The controller turns the switches on and off based on dwell times calculated using space vector modulation with a reference current {right arrow over (I)} | 2017-09-28 |
20170279371 | POWER CONVERSION DEVICE AND VEHICLE DRIVE SYSTEM - To include a carrier-wave generation unit to generate a first carrier wave with a frequency higher than a modulation wave, and a second carrier wave with a frequency lower than the first carrier wave, a comparison unit to compare either the first carrier wave or the second carrier wave to the modulation wave in order to generate a switching signal. The carrier-wave generation unit outputs the second carrier wave when a modulation factor is lower than a threshold value, and outputs the first carrier wave when the modulation factor is equal to or higher than the threshold value. When the modulation factor is equal to or higher than the threshold value, a power conversion unit operates in an overmodulation mode, in which the switching operation is stopped during a period longer than one cycle of the second carrier wave. | 2017-09-28 |
20170279372 | POWER CONVERTER - A discharge duty that is a duty at which a switch is conductive takes a value obtained by dividing a product of a crest value of a single-phase AC voltage and a square of a cosine value of a phase of the single-phase AC voltage by a both-end voltage across a capacitor. A sum of a product of a rectifying duty that is a duty at which a converter is conductive and a rectified voltage output from the converter and a product of the both-end voltage and the discharge duty varies in a period that is a half of the period of the single-phase AC voltage. | 2017-09-28 |
20170279373 | METHOD FOR OPERATING AN ELECTRICAL NETWORK - Method for operating an electrical network including a first subnetwork and a second subnetwork which are connected to one another via a transformer and are DC-isolated from one another by the latter. A primary side of the transformer with a first number of turns is assigned to the first subnetwork and a secondary side of the transformer with a second number of turns is assigned to the second subnetwork. The first subnetwork has a multi-level converter having a plurality of individual modules, and each individual module has an electrical energy store. The multi-level converter provides at least one first incoming electrical AC voltage which is modulated with at least one second incoming electrical AC voltage. A resulting electrical voltage is made available to the transformer and is transformed by the transformer to an outgoing electrical voltage which is made available to the second subnetwork. | 2017-09-28 |
20170279374 | INVERTER AND CONTROL METHOD FOR AN INVERTER - The disclosure relates to an inverter for supplying a power provided as a DC voltage at a DC input to an AC mains connectable to an AC output. In this case, the inverter includes a switching network with a plurality of semiconductor switches and a digital control unit for producing a digital switching pattern for digitally operated semiconductor switches of the switching network that are able to be used to produce a first output voltage (U | 2017-09-28 |
20170279375 | SOFT SWITCHING TECHNIQUE FOR A GRID-TIED INVERTER - A method, system, and computer-readable medium facilitate a soft switching technique for operating an inverter. In a full bridge inverter, a one of first set of transistors in the inverter may be rapidly activated and deactivated in pulses while one of a second set of transistor may be activated during a switching time period where the inverter matches the voltage and frequency of an AC grid. During a blanking time period between switching time periods, one of the second set of transistors may be primed before the other is activated during the next switching time period to prevent generating noise in the AC output of the inverter due to a hard switch. | 2017-09-28 |
20170279376 | GRID-TIE INVERTER WITH ACTIVE POWER FACTOR CORRECTION - A grid-tie inverter (the “inverter”) may include a power converter that receives a direct current (DC) output voltage from a DC input power source, and generates an alternating current (AC) output voltage for transmission to a utility power grid. The inverter may also include a system controller that regulates the AC output voltage to efficiently transfer power to the utility power grid while a system AC load may be terminated across the output of the inverter. The inverter may also provide active power factor correction between the utility grid voltage and current. Furthermore, the inverter may also offer harmonic cancellation, which minimizes or eliminates the harmonic content out of the utility power grid voltage and current. | 2017-09-28 |
20170279377 | MOTOR DRIVE APPARATUS AND AIR CONDITIONER - A motor drive apparatus driving a motor as a three-phase motor converting direct current into three-phase alternating current, includes: inverter modules and equivalent in number to phases of the motor; and a control unit generating PWM signals used to drive the inverter modules with PWM. The inverter modules each include a plurality of switching element pairs connected in parallel, each of the switching element pairs including two switching elements connected in series. | 2017-09-28 |
20170279378 | PIEZOELECTRIC ACTUATOR, PIEZOELECTRIC MOTOR, ROBOT, HAND, AND PUMP - A piezoelectric actuator includes a plurality of piezoelectric elements that generate a driving force to be transmitted to a driven portion; and a power supply portion that supplies power to the plurality of piezoelectric elements. The plurality of piezoelectric elements are electrically connected to the power supply portion in parallel. | 2017-09-28 |
20170279379 | VIBRATION-TYPE DRIVING APPARATUS - A vibration-type driving apparatus includes a vibrator holder, wherein a plurality of vibrators each having at least an electro-mechanical energy conversion element and an elastic member having a contact portion formed therein are connected to a vibrator holding member, for generating an ellipsoidal movement of the contact portion, to move, relative to the vibrator, a driving member contacting the contact portion. The plurality of vibrators are connected to a surface of the holding member at a side at which the contact portion contacts the driving member, and on a surface of the vibrator holding member opposite to the side at which the contact portion contacts the driving member, a pressing member is placed to set the contact portion to be pressed and contacted to the driving member. | 2017-09-28 |
20170279380 | METHOD OF DRIVING VIBRATION ACTUATOR, DRIVE DEVICE, AND IMAGE PICKUP APPARATUS - A drive device for a vibration actuator, which makes it possible to perform low-speed and stable driving and expand a dynamic range of driving speed. A first switching circuit and a second switching circuit apply a first drive signal and a second drive signal for exciting vibration, to an electromechanical energy conversion element of a vibrating body. A position detection sensor acquires information on a relative position between the vibrating body and a driven body in pressure contact with each other. An MPU switches the first and second drive signal to a third drive signal and a fourth drive signal, respectively, based on the acquired information, to thereby change a position at which a largest one of peaks of amplitude of vibration excited in the vibrating body is formed. | 2017-09-28 |
20170279381 | Vortex Flux Generator - Various implementations of the invention correspond to an improved vortex flux generator. In some implementations of the invention, the improved vortex flux generator includes a magnetic circuit configured to produce a magnetic field; a quench controller configured to provide a variable current; a vortex material configured to form and subsequently dissipate a vortex in response to the variable current, wherein upon formation of the vortex, a magnetic field density surrounding the vortex is urged to decrease, and wherein upon subsequent dissipation of the vortex, the urging to decrease ceases and the magnetic field density increases prior to a reformation of the vortex, and wherein the decrease of the magnetic field density and the increase of the magnetic field density correspond to a modulation of the magnetic field; an inductor disposed in a vicinity of the vortex such that the modulation of the magnetic field induces an electrical current in the inductor; and a dissipation superconductor electrically disposed in parallel with the vortex material and configured to carry, without quenching, an entirety of the variable current during dissipation of the vortex in the vortex material. | 2017-09-28 |
20170279382 | ELECTRIC MOTOR SYSTEM AND METHOD FOR RELEASING BRAKE - An electric motor system includes an electric motor, an electric brake, a power line, and a driver. The electric brake is integrated with the electric motor and configured to generate braking force against the drive force. The driver is integrated with the electric motor and the electric brake. The power line connects the electric brake to an electric power source via the driver to supply electric power to the electric brake. The driver includes a first circuit and a conduction bypath. The first circuit connects the electric brake to the power source such that electric power is supplied to the electric brake and disconnects the electric brake from the electric power source. Electric power is to be supplied to the electric brake from the electric power source through the conduction bypath even when the first circuit disconnects the electric brake from the electric power source. | 2017-09-28 |
20170279383 | INVERTER CONTROL DEVICE AND INVERTER CONTROL METHOD - An inverter control device that controls a multiple of inverters configured to use the same positive and negative direct current voltage bus lines connected to a power supply and driving a corresponding multiple of motors, the inverter control device including smoothing control means that controls an inverter outflow current so that voltage of the power supply is smoothed by a smoothing capacitor connected to the positive and negative direct current voltage bus lines, and two-phase modulation operation means that fixes a predetermined one phase of a three-phase modulated wave at either a maximum voltage or minimum voltage the inverter can output determined by a voltage between the positive and negative direct current voltage bus lines, and calculates a modulated wave that causes the other two phases to switch. | 2017-09-28 |
20170279384 | MOTOR CONTROL SYSTEM AND METHOD - A motor control interface system, comprising an interface communication module configured to connect to a wired control port of a rotating electronically controlled motor, such as in an HVAC system, wherein the interface communication module converts a rotating motor speed signal to a wireless signal for receipt by an external monitoring device. The speed output signal comprises a digital square wave signal, and the communication module implements a reciprocal frequency counter method to determine the speed of the motor. The interface communication module wirelessly transmits the motor speed information to a handheld wireless device, such as a smartphone. | 2017-09-28 |
20170279385 | Power Module, Power Module Group, Power Output Stage, and Drive System Comprising a Power Output Stage - The present disclosure relates to electric motors. The teachings thereof may be embodied in a power module, e.g., a power module for the delivery of a phase current for a current phase of an electric motor. For example, a power module may include: a circuit carrier having a surface; at least two first contact surfaces, a second contact surface, at least two third contact surfaces defined on the surface; a first power transistor connected to each of the at least two first contact surfaces; at least two second power transistors connected to the second contact surface; wherein the at least two second power transistors are connected via a further contact surface to one of the at least two third contact surfaces; and the at least two first and the at least two third contact surfaces are arranged one after the other, in one direction, and the second contact surface is disposed next to both the at least two first and the at least two third contact surfaces. | 2017-09-28 |
20170279386 | ROTARY ELECTRICAL MACHINE SYSTEM, DRIVE UNIT FOR ROTARY ELECTRICAL MACHINE, METHOD FOR DRIVING ROTARY ELECTRICAL MACHINE AND VEHICLE - According to one embodiment, a control device detects a field current in a rotary electrical machine, estimates a rate of rotation of a rotor of the machine based on the detected current, obtains a field voltage in the machine based on a difference between the estimated rate of rotation and a target rate of rotation, and controls the switching of an inverter based on the field voltage such that the rate of rotation follows the target rate of rotation. A permanent magnet using the machine is an R—Co permanent magnet containing 25 to 40 at % iron. The control device performs field-weakening control by increasing and decreasing the field voltage based on a negative-field current in accordance with the rate of rotation by a material of the permanent magnet. | 2017-09-28 |
20170279387 | Motor Driving Controller - A motor driving controller comprising a motor driver applying voltage to each phase of a motor and driving the motor, a rotary position detection circuit detecting a rotary position of a rotor and generating rotary position information, and a control part outputting, to the motor driver, a driving control signal to execute control based on the detected rotary position information, so that an overlap energization operation at a time of energization switching is repeated in a predetermined pattern. | 2017-09-28 |
20170279388 | DC MOTOR CONTROL DEVICE AND GAME MACHINE - A DC motor control device includes a communication circuit configured to receive a control command specifying a target rotation amount for a DC motor, a sensor interface configured to receive a detection signal from a rotational angle sensor that outputs the detection signal every time the DC motor rotates by a certain rotational angle, a step counter that outputs a count signal every time the detection signal has been received a certain number of times, a controller that, based on the number of times the count signal received, determines a step count representing the total amount of rotation, and generates a control signal that controls the DC motor in accordance with the step count and the target rotation amount, and a drive signal generation circuit that generates a drive signal that rotates the DC motor in accordance with the control signal. | 2017-09-28 |
20170279389 | SUPPORT STRUCTURE ADJUSTMENT - According to one example there is provided a method of adjusting a support structure. The method comprises obtaining a reference orientation of the support structure when the support structure is positioned in a reference position. The height of the support structure is adjusted to a predetermined position and the orientation of the support structure is adjusted such that the orientation of the support structure when in the predetermined position is substantially the same as the reference orientation. | 2017-09-28 |
20170279390 | PHASE VOLTAGE DETECTION CIRCUIT AND POWER GENERATION CONTROL DEVICE - An object of this invention is to obtain a phase voltage detection circuit that can detect a phase voltage signal reliably even when a leak current flows therein and a DC bias voltage of the phase voltage signal varies. A phase voltage detection circuit that detects a phase voltage signal generated by an armature coil of an AC power generator includes a peak hold circuit that determines an envelope of the phase voltage signal using an operational amplifier, a voltage offsetting circuit that shifts an output voltage from the peak hold circuit by a preset offset amount, and a comparator that compares the phase voltage signal with an output voltage from the voltage offsetting circuit, and outputs a phase voltage detection signal. | 2017-09-28 |
20170279391 | CONTROL ARRANGEMENT OF A MULTI-STATOR MACHINE - A control arrangement of a multiple-stator machine, comprising a frequency converter for each of the plurality of stators and a controller for each frequency converter, wherein a controller of a frequency converter is realized to generate control signals for that frequency converter on the basis of current values relating to that stator, and to generate a compensation current value for a further controller on the basis of the received current values in the event of an open-circuit fault in a frequency converter; to receive a compensation current value from a further controller; and to compute a voltage reference for a subsequent transform stage of the controller on the basis of the received current values is provided. The invention further describes a current control module of a frequency converter controller of such a multi-stator machine; a multi-stator machine; and a method of performing fault-tolerant control of a multi-stator machine. | 2017-09-28 |
20170279392 | VARIABLE MAGNETIZATION MACHINE CONTROLLER - A variable magnetization machine control system comprising a controller configured to generate a reversely rotating d-axis/q-axis current vector trajectory during a change in a magnetization state of a variable magnetization machine to drive the variable magnetization machine at a predetermined speed while maintaining the driving voltage below a predetermined maximum magnitude. | 2017-09-28 |
20170279393 | INVERTER CONTROLLER AND ON-VEHICLE FLUID MACHINE - An inverter controller is used to control an inverter circuit that drives an electric motor including a rotor and a stator. The inverter controller includes a voltage detector configured to detect input voltage, a current detector configured to detect motor current, an instruction value calculation unit configured to calculate an instruction value based on an external instruction value and a detection result of the current detector, a correction unit configured to calculate a corrected instruction value by correcting the instruction value in accordance with the input voltage, a PWM control unit configured to control the motor current based on the corrected instruction value and the input voltage, and a position estimation unit configured to estimate a rotation position of the rotor based on the instruction value and the detection result of the current detector. | 2017-09-28 |
20170279394 | MOTOR CONTROL APPARATUS AND ELECTRIC POWER STEERING APPARATUS USING THE SAME - A motor control apparatus that calculates duty command values of respective phases for controlling currents of a motor by means of a control calculation, forms PWM-signals in correspondence to the duty command values, drives the motor by means of an inverter based on the PWM-signals, and which is provided a rotation sensor to detect a motor angle of the motor. | 2017-09-28 |
20170279395 | STEPPING MOTOR, MOTOR DRIVE DEVICE AND TIME DISPLAY DEVICE - A stepping motor includes a rotor, a stator and three coils. The rotor is two-pole magnetized in a radius direction. The stator is provided with a rotor receiving section for receiving the rotor. The three coils are magnetically connected with the stator. At least one of the three coils is an integrated coil which is integrally formed with the stator by winding a coil around a part of the stator. | 2017-09-28 |
20170279396 | THREE-PHASE SWITCHED RELUCTANCE MOTOR TORQUE RIPPLE THREE-LEVEL SUPPRESSION METHOD - A three-phase switched reluctance motor torque ripple three-level suppression method. A first set of torque thresholds (th | 2017-09-28 |
20170279397 | PASSENGER TRANSPORT SYSTEM HAVING AT LEAST ONE INVERTER - A passenger transport system includes a three-phase drive motor, a control device and an inverter module having power semiconductor switches. The gate electrodes of the power semiconductor switches are driven directly by the control device. The inverter module is connected on the input side to a DC source and on the output side to the three-phase drive motor. Between the DC source and the inverter module there is a DC circuit, wherein drive signals that can be modulated on the DC circuit can be generated by the control device, and the inverter module has a demodulator, by which demodulator the drive signals can be converted into control voltages assigned to the individual gate electrodes of the power semiconductor switches. | 2017-09-28 |
20170279398 | ELECTRIC POWER CONVERSION DEVICE - An electric power conversion device includes: a converter circuit which includes a boost chopper; a capacitor which is connected between output terminals of the converter circuit; a boost chopper which boosts a terminal voltage of the capacitor; a multiphase inverter circuit; and a boost chopper controller. In a case where the operation of the boost chopper is continuously stopped, the capacitor has a capacitance allowing the terminal voltage of the capacitor to have a pulse frequency twice as high as that of the AC power source. The multiphase inverter circuit has an output power which is allowed to fluctuate in synchronization with a power source. | 2017-09-28 |
20170279399 | MOTOR CONTROLLER HAVING FUNCTION OF DETERMINING POWER FAILURE DETECTION CONDITION - A motor controller includes a rectifier for converting AC power supplied from an AC power supply into DC power and outputting the DC power; an AC voltage detector for detecting an AC voltage value of the AC power supply and outputting the AC voltage value as a detection value; a power failure detector for determining that a power failure is occurring, when a state in which the outputted detection value is equal to or lower than a regulation voltage has continued for a regulation time or more; and a power failure detection condition determiner for determining or modifying the regulation time. | 2017-09-28 |
20170279400 | AXIAL FLUX PERMANENT MAGNET MACHINE - An axial flux permanent magnet machine including a pair of axially spaced first components. A second component positioned axially between and equidistant from the first components. Either the pair of first components or the second component is arranged to rotate about a shaft. A translation mechanism coupled to each of the first components. The translation mechanism configured to translate the first components axially away from the second component. Also a method of controlling an axial flux permanent magnet machine. | 2017-09-28 |
20170279401 | ULTRA WIDE SPECTRUM PHOTOVOLTAIC-THERMOELECTRIC SOLAR CELL - The present invention is a photovoltaic-thermoelectric solar cell and a method of manufacturing a photovoltaic-thermoelectric solar cell. The solar cell includes a substantially transparent electrode, an organometallic photovoltaic material disposed on the transparent electrode, and a cathode disposed on the organometallic photovoltaic material. The organometallic photovoltaic material may be a porphyrin nanomaterial. | 2017-09-28 |
20170279402 | PHOTOVOLTAIC MACRO-MODULE FOR SOLAR POWER GENERATION - A photovoltaic (“PV”) macro-module for solar power generation includes a plurality of solar cell strings disposed within a laminated support structure. The solar cell strings generate solar power in response to light incident upon a frontside of the solar cell strings. Each of the solar cell strings includes a plurality of solar cells electrically connected in series. The laminated support includes a substrate layer to provide physical environmental protection to a back side of the solar cell strings, a backside encapsulant layer disposed between the substrate layer and the solar cell strings, and a frontside encapsulant layer. The backside encapsulant layer conforms to and molds around the back side of the solar cell strings while the frontside encapsulant layer conforms to and molds around the frontside of the solar cell strings. The laminated support structure is compliant to rolling or folding. | 2017-09-28 |
20170279403 | PHOTOVOLTAIC MOUNTING SYSTEM WITH SEALANT INJECTOR INLET - Photovoltaic mounting systems that form chemical flashings are provided herein. Such mounting systems can include a mounting plate adapted to interface with an off-the-shelf mounting puck so as to allow mounting of the puck on the roof surface without use of traditional roof flashing and/or modification of shingles of the roof surface. Such mounting plates can include a top surface adapted to interface with the puck and a bottom surface that defines a cavity between the mounting plate and the puck in which to form the chemical flashing by injecting a flowable sealant into the cavity via an inlet of the mounting plate that remains accessible from outside the puck during mounting. Such mounting plates can further include features for orienting the plate, directing runoff away from any sealed roof penetrations and filling of the cavity with flowable sealant. | 2017-09-28 |
20170279404 | SOLAR MODULE WITH INTEGRATED MOUNTING COMPONENTS FOR MOUNTING ON A SURFACE - A solar module for installation on a structure includes a laminate for converting solar energy into electricity. The solar module also includes a mount releasably connected to the laminate for mounting the solar module on a surface of the structure. The mount includes openings to receive fasteners for securing the mount to the surface of the structure. The solar module has a pre-mount configuration in which the mount is connected to the laminate as a single unit. The mount is sized to allow the solar module to be shipped in the pre-mount configuration. | 2017-09-28 |
20170279405 | SUN TRACKING SOLAR ENERGY COLLECTION SYSTEM AND METHOD OF ASSEMBLY - Various systems and methods enabling low cost solar tracker systems including lower cost mounting assemblies and fasteners are described herein. Reducing the material, manufacturing costs and/or labor required for assembly of solar tracker components can present significant reductions in the cost of solar tracker systems. In an embodiment, a hollow fastener can significantly lower the cost of solar tracker mounting and coupling assemblies while still maintaining strength and structural integrity of the solar tracker system. | 2017-09-28 |
20170279406 | High Efficiency Hybrid Solar Energy Device - An apparatus for generating electricity with the ability to distill a liquid and/or expand a working fluid and/or produce mechanical energy and/or produce thermal energy and/or produce chemical transformations through separately utilizing light in the infrared (IR) region and light within the visible and ultraviolet (UV) regions. The apparatus uses methods to capture diffuse and direct polychromatic light, concentration and multiplication of that light up to 1000 times or more, collimation of light, separation of the spectrum into the IR and UV/visible bands, generation of electricity through conversion of at least UV/visible light, and useful conversion of infrared light into applications to generate a distilled liquid or compound, expand a working fluid, produce mechanical energy, produce thermal energy, produce chemical energy and/or generate additional electricity. Non-reflected radiant energy may be used to operate a suitable photovoltaic cell or stack of cells. In alternative embodiments, the spectral separator may reflect most radiant energy incident upon it to one or more photovoltaic cells and pass infrared to an accumulator for use as heat energy to generate mechanical or chemical energy or generate further electrical energy. | 2017-09-28 |
20170279407 | PHOTOVOLTAIC MODULE WITH INTEGRATED LIGHT-DIRECTING STRUCTURE ON THE BASIS OF TOTAL INTERNAL REFLECTION - In a photovoltaic module ( | 2017-09-28 |
20170279408 | SOLAR POWER SYSTEM AND METHOD FOR MANUFACTURING THE SAME - A solar power system and a method for manufacturing the same are provided. The solar power system includes at least one solar power module and a bypass diode module. The at least one solar power module comprises a plurality of solar panels connected in parallel. The bypass diode module has a plurality of bypass diodes connected in series. The at least one solar power module and the bypass diode module are connected in parallel. | 2017-09-28 |
20170279409 | RESONATION DEVICE, OSCILLATOR, ELECTRONIC APPARATUS, AND MOVING OBJECT - In a crystal resonator, a resonator element is installed in a package via a first bonding member and a second bonding member, and when viewed from above, a distance between a first bonding center and a second bonding center is set to be L1, and a length of a perpendicular line drawn to a virtual line which connects the first bonding center and the second bonding center from the resonation area center is set to be L2, a relationship expressed by 02017-09-28 | |
20170279410 | Terahertz wave fast modulator based on coplanar waveguide combining with transistor - A terahertz wave fast modulator based on coplanar waveguide combining with transistor is disclosed. The terahertz waves are inputted through a straight waveguide structure, and then are coupled through a probe structure onto a core part of the present invention, which includes a suspended coplanar waveguide structure and a modulation unit with high electron mobility transistor, wherein the suspended coplanar waveguide structure is formed by three metal wires and a semiconductor substrate; and the modulation unit with high electron mobility transistor is located between adjacent metal transmission strips of the coplanar waveguide structure. Transmission characteristics of the terahertz waves in the coplanar waveguide structure are changed through the switching on/off of the modulation unit, so as to fast modulate the amplitudes and phases of the terahertz waves, and finally the modulated terahertz waves are transmitted through a probe—waveguide structure. | 2017-09-28 |
20170279411 | Radio Frequency Circuit, Transmitter, Base Station, and User Terminal - The application provides a radio frequency circuit, including: a first circuit and a second circuit. The first circuit is configured to receive a first signal and a second signal; split the first signal into a third signal and a fourth signal, and split the second signal into a fifth signal and a sixth signal; adjust a phase of the fifth signal to obtain a seventh signal; and combine the seventh signal and the third signal into an eighth signal. The second circuit includes a primary power amplifier branch and a secondary power amplifier branch, and the primary power amplifier branch is configured to process the fourth signal and the sixth signal, and the secondary power amplifier branch is configured to process the eighth signal. | 2017-09-28 |
20170279412 | Modulated Supply Amplifier with Adjustable Input Parameter Configuration - An amplifier may include control circuitry that may track a first input signal parameter and, in response, adjust a value of a second input parameter. Input parameter tracking and adjustment may facilitate control of output parameters for the amplifier. For example, an envelope-tracking amplifier may track input signal amplitude and adjust other input parameters in response. The adjustments may facilitate control of output parameters, such as gain or efficiency. The amplifier may further include calibration circuitry to determine adjustment responses to various tracked input parameters. | 2017-09-28 |
20170279413 | POWER AMPLIFICATION CIRCUIT - Provided is a power amplification circuit that includes: a first transistor that has an emitter to which a first radio frequency signal is supplied, a base to which a first DC control current or DC control voltage is supplied and a collector that outputs a first output signal that corresponds to the first radio frequency signal; a first amplifier that amplifies the first output signal and outputs a first amplified signal; and a first control circuit that supplies the first DC control current or DC control voltage to the base of the first transistor in order to control output of the first output signal. | 2017-09-28 |
20170279414 | FREQUENCY AND BACK-OFF RECONFIGURABILITY IN MM-WAVE POWER AMPLIFIERS - A power amplifier system for amplifying an input having a carrier frequency having an amplitude. The system includes a plurality of n amplifiers coupled to an asymmetrical combiner formed of a passive network, each amplifier has an input and an output, the asymmetrical combiner has a plurality of inputs and an output, the output of each amplifier is coupled to an input of the asymmetrical combiner, an impedance viewed at the output of each of the n amplifiers is a function of the amplitude and phase at each of the other n−1 amplifiers. An amplitude/phase controller is coupled to the plurality of n amplifiers or the asymmetrical combiner to control the amplitude/phase at the asymmetrical combiner input. The amplitude/phase controller is configured to present an amplitude/phase at each input of the asymmetrical combiner to target an optimal impedance at the carrier frequency for each of the plurality of n amplifiers. | 2017-09-28 |
20170279415 | APPARATUS AND METHODS FOR OVERLOAD PROTECTION OF LOW NOISE AMPLIFIERS - Apparatus and methods for overload protection of low noise amplifiers (LNAs) are provided herein. In certain configurations, an LNA system includes an input switch having an analog control input that controls an impedance of the input switch, an LNA that amplifies a radio frequency (RF) input signal received from the input switch, and an overload protection circuit that provides feedback to the input switch's analog control input based on detecting a signal level of the LNA. The overload protection circuit detects whether or not the LNA is overloaded. Additionally, when the overload protection circuit detects an overload condition, the overload protection circuit provides feedback to the analog control input of the switch to increase the impedance of the switch and reduce the magnitude of the RF input signal received by the LNA. | 2017-09-28 |
20170279416 | DUAL OUTPUT RF LNA - RF receive circuitry, which includes a first output impedance matching circuit coupled to a first alpha output of a first alpha LNA, a second output impedance matching circuit coupled to a first beta output of a first beta LNA, and a first dual output RF LNA, is disclosed. The first dual output RF LNA includes the first alpha LNA, the first beta LNA, and a first gate bias control circuit, which is coupled between a first alpha input of the first alpha LNA and ground; is further coupled between a first beta input of the first beta LNA and the ground; is configured to select one of enabled and disabled of the first alpha LNA using an alpha bias signal via the first alpha input; and is further configured to select one of enabled and disabled of the first beta LNA using a beta bias signal via the first beta input. | 2017-09-28 |
20170279417 | AMPLIFIER USED TO IMPROVE OPERATIONAL PERFORMANCE UNDER BYPASS MODE - An amplifier includes an input terminal for receiving an input signal, an output terminal for outputting an output signal, a first transistor, a second transistor having a first terminal coupled to a second terminal of the first transistor, a third transistor having a first terminal coupled to a second terminal of the second transistor, a capacitor coupled between a control terminal and a second terminal of the third transistor, a bias circuit coupled to the first terminal of the third transistor for providing a bias voltage to the third transistor, a fourth transistor having a first terminal coupled to the input terminal and a second terminal coupled to the output terminal for providing a bypass path, and a fifth transistor having a first terminal coupled to the first terminal of the first transistor and a second terminal coupled to the output terminal. | 2017-09-28 |
20170279418 | POWER AMPLIFIER - A power amplifier (PA) cell is coupled to an input signal source, and includes a transistor coupled to the load; a first inductor coupled to a gate of the transistor; and a second inductor coupled to a source of the transistor, wherein the first inductor and the second inductor each includes a first conductive coil and a second conductive coil, respectively, having first and second inductance values, respectively, such that the PA cell includes a terminal between the gate of the transistor and the input signal source, and the terminal is impedance matched with the input signal source. | 2017-09-28 |
20170279419 | LC Network for a Power Amplifier with Selectable Impedance - An amplifier is configured to amplify an RF signal as between an input terminal and an output terminal across a wideband frequency range. A first LC network is connected to the input terminal and has first and second reactive components. A first switching device is connected between the first and second reactive components and couples both the first and second reactive components to the input terminal in an ON state, and disconnects the second reactive component from the input terminal in an OFF state. A second LC network is connected to the output terminal and has third and fourth reactive components. A second switching device is connected between the third and fourth reactive components and couples both the third and fourth reactive components to the output terminal in an ON state and disconnects the fourth reactive component from the output terminal in in an OFF state. | 2017-09-28 |
20170279420 | AUDIO SIGNAL AMPLIFICATION DEVICE, POWER SUPPLY DEVICE, AND POWER SUPPLY CONTROL METHOD - An audio signal amplification device includes: a clock generation circuit that generates a clock for use in amplifying an audio signal; and a power supply circuit that generates direct current power, which is supplied to the clock generation circuit, from input power. The power supply circuit includes: a constant voltage generation circuit that generates direct current power of a constant voltage from the input power; a first capacitor; a first charging circuit that charges the first capacitor by using the input power; and a selection circuit. The selection circuit selects one direct current power of the direct current power generated in the constant voltage generation circuit and of direct current power charged to the first capacitor, and supplies the selected direct current power to the clock generation circuit. | 2017-09-28 |
20170279421 | SELF-OSCILLATING CLASS D AMPLIFIER - A self-oscillating class D amplifier includes an integration circuit configured to integrate an input signal and output a result of the integration as an integrated signal, a comparator configured to receive the integrated signal at an inverting input terminal and output a pulse width modulation signal by comparing voltages of a non-inverting input terminal being grounded and the inverting input terminal, a switching circuit configured to power-amplify the pulse width modulation signal output from the comparator, a low-pass filter configured to extract an amplified output signal from the power-amplified pulse width modulation signal, a first feedback circuit configured to feed back the output signal of the low-pass filter to the inverting input terminal of the comparator, and a second feedback circuit configured to feed back the output signal of the low-pass filter to the integration circuit. | 2017-09-28 |
20170279422 | BTL OUTPUT SELF-OSCILLATING CLASS D AMPLIFIER - A Bridge-Tied Load output self-oscillating class D amplifier includes a comparator receives an input signal from a signal input circuit at a second input terminal and outputs a positive-phase pulse width modulation signal and a reverse-phase pulse width modulation signal by comparing voltages of the two input terminal, first and second switching circuits power-amplifies the reverse-phase pulse width modulation signal and the positive-phase pulse width modulation signal, a first low-pass filter extracts a first output signal from the reverse-phase pulse width modulation signal, a second low-pass filter extracts a second output signal from the positive-phase pulse width modulation signal, a subtractor calculates a difference between the first and second output signals and output a difference signal, and a first feedback circuit feeds back the difference signal to the second input terminal of the comparator. | 2017-09-28 |
20170279423 | Class AB Common-Source Amplifier With Constant Transconductance - An ultrasound probe buffer is provided. The ultrasound probe buffer may include a high impedance amplifier having a common-source core stage with series-series local feedback. The high impedance amplifier may include a first MOSFET and a second MOSFET, wherein a source terminal of the first MOSFET is coupled to a source terminal of the second MOSFET. | 2017-09-28 |
20170279424 | APPARATUS AND METHOD FOR VARIABLE VOLTAGE DISTRIBUTION - Apparatus and methods for providing variable regulated voltages are disclosed. Variable voltage control elements can adjust a regulated voltage provided by a single voltage regulator, thereby providing a variable regulated voltage. The regulated voltage can be used in a variety of applications, for example, as a bias voltage for a power amplifier. | 2017-09-28 |
20170279425 | System and Method for Signal Amplification Using a Resistance Network - A signal amplification method includes receiving, from a capacitive sensor, a first input signal by a first control terminal of a first transistor, and a second input signal by a first control terminal of a second transistor. The method also includes producing a first output signal, including amplifying a first signal at a first load path terminal of the first transistor using a first inverting amplifier having an output coupled to a resistance network, and producing a second output signal, including amplifying a second signal at a first load path terminal of the second transistor using a second inverting amplifier having an output coupled to the resistance network. The method also includes feeding back the first and second output signal to a second load path terminal of the first transistor and to a second load path terminal of the second transistor via the resistance network according to a pre-determined fraction. | 2017-09-28 |
20170279426 | Playback Device Group Volume Control - Embodiments are provided for satellite volume control. An example method includes receiving an input at a playback device to adjust a volume for a plurality of playback devices that are grouped for synchronous playback of audio content, wherein the plurality of playback devices includes the playback device. The method also includes sending a first message over a network from the playback device to a device associated with the plurality of playback devices, the first message including information based on the input, wherein the information is used to adjust the volume of the plurality of playback devices. The method also includes receiving a second message at the playback device over the network, the second message including information for the volume of the playback device, wherein the volume is based on the adjusted volume of the plurality of playback devices. | 2017-09-28 |
20170279427 | METHODS AND SYSTEMS FOR INTELLIGENT DUAL-CHANNEL VOLUME ADJUSTMENT - Disclosed herein are methods and systems for intelligent dual-channel volume adjustment. One embodiment takes the form of a dual-watch mobile radio that includes a first receiver, a second receiver, an audio output port, a one-dimensional (1-D) volume control, and a controller programmed to carry out a set of functions. The set of functions includes receiving first and second audio signals from the first and second receivers, respectively, and generating first and second amplified audio signals at least in part by applying first and second signal gains to the first and second audio signals, respectively, as well as outputting the first and second amplified audio signals via the audio output port. The set of functions also includes receiving volume-control commands from the 1-D volume control, and responsively adjusting the first and second signal gains at least in part by applying a gain function to the first and second signal gains. | 2017-09-28 |
20170279428 | SYSTEM AND METHOD FOR SETTING ANALOG FRONT END DC GAIN - A system and method for setting analog front end in a serial receiver. The serial receiver includes a decision feedback equalizer. During initialization, taps of the decision feedback equalizer other than the zeroth tap are disabled, and the zeroth tap is used to estimate the amplitude of the signal at the output of the analog front end. The analog front end gain is iteratively adjusted until the estimated value of the zeroth tap is within a set range. | 2017-09-28 |
20170279429 | METHOD FOR MANUFACTURING ELASTIC WAVE DEVICE, AND ELASTIC WAVE DEVICE - A method for manufacturing an elastic wave device includes successively stacking conductive films on a piezoelectric substrate on which a pattern of a first resist has been formed, removing the first resist from the piezoelectric substrate on which the conductive films have been stacked; applying a second resist to the piezoelectric substrate from which the first resist has been removed and subjecting the second resist to exposure and development, thus forming a protective layer that protects a first region with the second resist, and etching the second conductive material in a state in which the first region is protected by the protective layer. | 2017-09-28 |
20170279430 | Circuit - The disclosure relates to a circuit comprising a balun portion, a balanced side impedance transforming element and an unbalanced side impedance transforming element. The balun portion at least partly transforms the signal between a balanced signal input/output terminal and an unbalanced signal input/output terminal. The impedance transforming elements at least partly alter the impedance presented at the balanced and unbalanced side of the balun. In addition at least one matching transmission element is provided. By separating the role of impedance transformation from balun signal conversion, the useful bandwidth of the circuit can be improved in comparison to a balun that provides both signal conversion and impedance transformation functions. | 2017-09-28 |
20170279431 | CRYSTAL ELEMENT AND CRYSTAL DEVICE - The crystal element includes: a mesa-shaped crystal piece in a substantially rectangular shape in a plan view including an oscillation section having a first protruded section and a second protruded section; excitation electrodes provided on both main surfaces of the oscillation section; leading sections provided side by side along a prescribed side of the crystal piece; and a wiring section connecting between the excitation electrodes and the leading sections. The first protruded section and the second protruded section include sloping side faces. The side face of the first protruded section located on the +X-side overlaps with the side face of the second protruded section located on the +X side, and the side face of the first protruded section located on the −X-side overlaps with the side face of the second protruded section located on the −X side. | 2017-09-28 |
20170279432 | ELASTIC WAVE APPARATUS - An elastic wave apparatus includes a piezoelectric substrate, an IDT electrode on the piezoelectric substrate and includes first electrode fingers, second electrode fingers, a first busbar, and a second busbar, a capacitive electrode including third electrode fingers, fourth electrode fingers, a third busbar, and a fourth busbar, an insulating film laminated on the capacitive electrode, a first wiring line including a first portion facing the capacitive electrode via the insulating film, and a second wiring line that connects the first busbar and the third busbar. The capacitive electrode extends in a lateral direction with respect to the IDT electrode in a surface acoustic wave propagation direction. | 2017-09-28 |
20170279433 | ACOUSTIC WAVE RESONATOR, FILTER, MULTIPLEXER, AND METHOD OF FABRICATING ACOUSTIC WAVE RESONATOR - An acoustic wave resonator includes: a piezoelectric substrate; an IDT located on the piezoelectric substrate and including comb-shaped electrodes facing each other, each of the comb-shaped electrodes including: electrode fingers exciting an acoustic wave; and a bus bar to which the electrode fingers are connected; a dielectric film located on the piezoelectric substrate in an overlap region, where the electrode fingers of one of the comb-shaped electrodes and the electrode fingers of the other overlap, so as to cover the electrode fingers; and an additional film located on the dielectric film in the overlap region and having a density greater than that of the dielectric film, and of which a film thickness in edge regions corresponding to both edges of the overlap region in an extension direction of the electrode fingers is greater than a film thickness in a central region sandwiched between the edge regions in the overlap region. | 2017-09-28 |
20170279434 | CRYSTAL RESONATOR - A crystal resonator includes a flat plate-shaped crystal element and excitation electrodes. The crystal element has principal surfaces parallel to an X′-axis and a Z′-axis. The X′-axis is an axis of rotating an X-axis in a range of 15 to 25 degrees around a Z-axis. The Z′-axis is an axis of rotating the Z-axis in a range of 33 to 35 degrees around the X′-axis. The excitation electrodes are formed on the respective principal. The excitation electrodes include a first region with a circular outer shape and a second region. The second region is formed at a peripheral area of the first region. The second region has a thickness thinner than the first region and has an elliptical outer shape. The elliptical shape has a long axis extending in a direction in a range of −5 to +15 degrees with respect to a direction that the X′-axis extends. | 2017-09-28 |
20170279435 | CERAMIC SUBSTRATE, LAYERED BODY, AND SAW DEVICE - A ceramic substrate is formed of a polycrystalline ceramic and has a supporting main surface. The supporting main surface has a roughness of 0.01 nm or more and 3.0 nm or less in terms of Sa. The number of projections and depressions with a height of 1 nm or more in a square region with 50 μm sides on the supporting main surface is less than 5 on average, and the number of projections and depressions with a height of 2 nm or more in the square region is less than 1 on average. | 2017-09-28 |
20170279436 | FLEXIBLE L-NETWORK ANTENNA TUNER CIRCUIT - An ‘L’ shaped dynamically configurable impedance matching circuit is presented herein. The circuit can include a series element and a shunt element. The shunt element in the L-shaped impedance matching circuit can be moved or modified based on the impedance of the circuit elements in electrical communication with each side of the impedance matching circuit. Thus, in some cases, the impedance matching circuit may be a flexible circuit that can be dynamically modified based on the environment or configuration of the wireless device that includes the impedance matching circuit. | 2017-09-28 |
20170279437 | FLEXIBLE L-NETWORK ANTENNA TUNER CIRCUIT - An ‘L’ shaped dynamically configurable impedance matching circuit is presented herein. The circuit can include a series element and a shunt element. The shunt element in the L-shaped impedance matching circuit can be moved or modified based on the impedance of the circuit elements in electrical communication with each side of the impedance matching circuit. Thus, in some cases, the impedance matching circuit may be a flexible circuit that can be dynamically modified based on the environment or configuration of the wireless device that includes the impedance matching circuit. | 2017-09-28 |
20170279438 | SEMICONDUCTOR DEVICE - When a signal of high amplitude is outputted, a drain-to-source voltage exceeding a withstand voltage may be applied. The semiconductor device according to the present invention includes a level shift circuit that outputs a high amplitude signal from the input of a low amplitude logical signal. The level shift circuit includes a series coupling circuit, a first gate control circuit coupled to a first power supply, a second gate control circuit coupled to a second power supply of a potential higher than the potential of the first power supply, and a potential conversion circuit arranged between the first gate control circuit and the series coupling circuit. The potential conversion circuit supplies a first level potential, which is lower than the potential of the first power supply and higher than the potential of the reference power supply, to a gate of an N-channel MOS transistor of the series coupling circuit. | 2017-09-28 |
20170279439 | RF PHASE OFFSET DETECTION CIRCUIT - An RF phase offset detection system, which includes a first RF phase detector and a second RF phase detector, and measures a first phase offset between a first RF signal and a second RF signal, is disclosed. Each of the first RF signal and the second RF signal has a common RF frequency. The first RF phase detector detects and filters the first RF signal and the second RF signal to provide a first detection signal. The second RF phase detector receives and phase-shifts the second RF signal to provide a phase-shifted RF signal. The second RF phase detector further detects and filters the first RF signal and the phase-shifted RF signal to provide a second detection signal, such that a combination of the first detection signal and the second detection signal is representative of the first phase offset. | 2017-09-28 |
20170279440 | INTEGRATED VOLTAGE REGULATOR WITH IN-BUILT PROCESS, TEMPERATURE AND AGING COMPENSATION - A method for regulating voltage for a processor is disclosed. The method comprises requesting a target frequency value, wherein the target frequency value determines a target clock frequency for clocking the processor. The method also comprises comparing the target clock frequency to a first signal to generate an error signal. Further, the method comprises using the error signal to generate a duty cycle control signal, wherein the duty cycle control signal is operable to generate a periodic waveform. Finally, the method comprises generating an output regulator voltage using the periodic waveform, wherein the output voltage is operable to provide power to the processor. | 2017-09-28 |
20170279441 | CLOCK CORRECTION DEVICE AND CLOCK CORRECTING METHOD - A clock correction device performs skew adjustment and duty correction of an input clock concurrently or in parallel. The clock correction device includes a correction circuit that performs skew adjustment of an input clock by analog control using a skew adjustment signal based on a phase difference between an output clock and a reference clock, receives a duty control signal, and performs duty correction of the input clock by digital control, a skew detection circuit that receives inputs of the output clock and the reference clock and, when only the reference clock is in a predetermined state, outputs a detection signal that changes to the predetermined state, an integration circuit that integrates the detection signal and generates a first voltage signal, and a comparator that compares the first voltage signal and a first reference signal to thereby generate the skew adjustment signal. | 2017-09-28 |
20170279442 | TWO LEAD ELECTRONIC SWITCH SYSTEM ADAPTED TO REPLACE A MECHANICAL SWITCH SYSTEM - Systems and methods are disclosed for a two lead electronic switch adapted to replace a mechanical switch. In one embodiment, a device is provided that includes a sensor and an electronic circuit having a voltage limiting circuit. The electronic circuit is configured to deactivate/activate the voltage limiting circuit to operate the electronic circuit in a first/second state in response to determining that an output of the sensor is less/more than a threshold voltage. The circuit includes first and second terminals configured to receive a switch voltage used to provide power for the device. The device sets the switch voltage to a first voltage level operative to power the electronic circuit and the sensor while the electronic circuit is operating in the first state and to a second voltage level operative to power the electronic circuit and the sensor while the electronic circuit is operating in the second state. | 2017-09-28 |
20170279443 | POWER BREAKER APPARATUS - A power breaker apparatus which performs energization and interception between a power supply and a load, includes a current measuring part which measures a current value flowing in a power line supplying electric power from the power supply to the load, an interception part disposed in the power line and including a plurality of semiconductor switches connected in parallel to each other, a control part comparing the current value measured in the current measuring part with an interception threshold value and, controlling on/off of the plurality of the semiconductor switches according to a comparison result, and a failure detection part which detects a potential on an output side of the interception part so that the control part checks for a failure of the semiconductor switches. | 2017-09-28 |
20170279444 | COMBINED ISOLATOR AND POWER SWITCH - A combined isolator and power switch is disclosed. Such devices are useful in isolating low voltage components such as control compilers from motors or generators working at high voltages. The combined isolator and power switch includes circuits to transfer internal power from its low voltage side to the switch driver circuits on the high voltage side. The combined isolator and switch is compact and easy to use. | 2017-09-28 |