40th week of 2017 patent applcation highlights part 80 |
Patent application number | Title | Published |
20170288531 | CHARGE PUMP CIRCUIT AND METHOD FOR OPERATING A CHARGE PUMP CIRCUIT - Embodiments of a charge pump circuit and a method for operating a charge pump circuit are disclosed. In an embodiment, a charge pump circuit includes a charge pump configured to generate a charge pump output voltage, a transistor array including multiple transistor devices that includes at least one transistor device having a back gate terminal coupled to the charge pump output voltage, and a control circuit configured to control the charge pump output voltage so as to regulate the back bias voltage of the transistor devices within the transistor array. Other embodiments are also described. | 2017-10-05 |
20170288532 | CHARGE PUMP VOLTAGE REGULATOR - A charge pump voltage regulator is provided. The charge pump voltage regulator includes a charge pump circuit, where an output terminal of the charge pump circuit outputs a stable voltage. The charge pump voltage regulator also includes a voltage divider circuit suitable to divide the stable voltage to output a divided voltage and a clock oscillator providing a drive clock signal for the charge pump circuit. In addition, the charge pump voltage regulator includes a first voltage comparator circuit suitable to output at least one of a first comparison result and a second comparison result. Further, the charge pump voltage regulator includes a logic control unit, where, when the charge pump voltage regulator operates in a standby mode, the logic control unit outputs a first control level to the clock oscillator according to the at least one of the first comparison result and the second comparison result. | 2017-10-05 |
20170288533 | ELECTRICAL CIRCUIT FOR VOLTAGE CONVERSION - A circuit includes a second voltage converter electrically coupled to a comparator and first voltage converter. The first voltage converter receives first and second clocks and an input signal at a first voltage and generates an intermediate signal at a second voltage based on the input signal and the first and second clocks. The second voltage converter receives the intermediate signal, the second clock, and a comparison signal and generates an output signal at a third voltage based on the intermediate and comparison signals and the second clock. The comparator receives a reference voltage, the output signal, and the first clock, compares the reference voltage and output signal, and generates the comparison signal based on the first clock and the comparison of the reference voltage and output signal. The second voltage converter adjusts the third voltage of the output signal to approach the reference voltage based on the comparison signal. | 2017-10-05 |
20170288534 | CHARGE PUMP CIRCUIT - A bipolar output charge pump circuit having a network of switching paths for selectively connecting an input node and a reference node for connection to an input voltage, a first pair of output nodes, two pairs of flying capacitor nodes, and a controller for controlling the switching of the network of switching paths. The controller is operable to control the network of switching paths when in use with two flying capacitors connected to the two pairs of flying capacitor nodes, to provide a first mode and a second mode when in use with two flying capacitors connected to the flying capacitor nodes, wherein at least the first mode corresponds to a bipolar output voltage of +/−3 VV, +/−VV/5 or +/−VV/6. | 2017-10-05 |
20170288535 | POLARITY CORRECTION CIRCUIT - A power unbalance mitigating polarity correction circuit is presented comprising a first and a second polarity correction circuit, each comprising: an input for receiving an input current, an output for providing a rectified output current, at least a first current path, for conducting the received current when the received current is of a first polarity, and a second current path, for conducting the received current when the received current is of a second polarity, wherein the first current path comprises a passive rectification component as an asymmetric conductance component of a first type and the second current path comprises an active rectification component as an asymmetric conductance component of a second type different from the first type; the power unbalance mitigating polarity correction circuit further comprising a controller, wherein the controller is arranged for controlling the active rectification component to operate in a power unbalance mitigation mode when the current received by the first polarity correction circuit is conducted over the first current path of the first polarity correction circuit and the current received by the second polarity correction circuit is conducted over the second current path of the second polarity correction circuit. | 2017-10-05 |
20170288536 | VOLTAGE CONTROLLING CIRCUIT OF T-CON LOAD VARIATION, DISPLAY PANEL AND DISPLAY DEVICE - The present disclosure provides a voltage controlling circuit of a T-CON load variation, a display panel and a display device. The voltage controlling circuit of the T-CON load variation includes: a power source chip and a voltage controlling circuit, and the voltage controlling circuit includes a photoelectric coupler, a first comparator, a second comparator, a first field effect transistor and a second field effect transistor. Therefore, the technical scheme of the present disclosure has an advantage that the Vcore may automatically vary with a variation of the load. | 2017-10-05 |
20170288537 | REDUCTION OF FREQUENCY VARIATION FOR RIPPLE BASED, CONSTANT-ON-TIME DC-DC CONVERTERS - Embodiments of a circuit for use with a DC-DC converter are disclosed. In an embodiment, a circuit for controlling frequency variation for a ripple based, constant-on time DC-DC converter, is discloses. The circuit includes a set/reset (SR) latch, a comparator configured to set the SR latch, and an on-time and frequency variation controller configured to reset the SR latch. The on-time and frequency variation controller includes a feedback loop configured to increase the rate at which a ramp voltage increases to reduce the time it takes for the ramp voltage to exceed a threshold voltage. Embodiments of a method for controlling frequency variation for a ripple based, constant-on time DC-DC converter are also disclosed. | 2017-10-05 |
20170288538 | CIRCUIT DEVICE, SWITCHING REGULATOR, AND ELECTRONIC APPARATUS - A circuit device includes: a comparator that outputs an output signal that is activated when a potential of an input terminal is lower than a determination level; a switch circuit that is electrically connected between an output node connected to a switching element that enters a conduction state or a non-conduction state according to a drive signal and the input terminal of the comparator, and is in a non-conduction state when the switching element is in a conduction state; and a control circuit that controls a level of the drive signal such that the switching element will not enter a conduction state again based on a period during which or the number of times the output signal of the comparator is activated after the switching element has transitioned from a conduction state to a non-conduction state. | 2017-10-05 |
20170288539 | DC-DC CONVERTER WITH TRANSIENT CONTROL AND THE METHOD THEREOF - A DC-DC converter with transient control. The DC-DC converter includes a power switching circuit, a current to voltage converter, a PI circuit | 2017-10-05 |
20170288540 | DIGITAL VOLTAGE COMPENSATION FOR POWER SUPPLY INTEGRATED CIRCUITS - Systems and methods for digital voltage compensation in a power supply integrated circuit are provided. In at least one embodiment, a method comprises receiving a digital voltage code, the digital voltage code corresponding to an output voltage value; setting an output count on a first counter to change from a present first digital count corresponding to a present voltage code value toward a target first digital count corresponding to a new voltage code value; and setting a second count to an offset count value on a second counter when the new voltage code value is received. The method also comprises combining the second count with the output count to form a combined count value; and decrementing the second count value from the offset count value to zero when the first counter reaches the target first digital count. | 2017-10-05 |
20170288541 | POWER SUPPLY CIRCUIT - A power supply circuit includes: an analog/digital converter for converting an analog signal to a digital signal; a pulse width modulation signal control circuit for generating a setting control signal varying in accordance with the difference between a reference voltage and a feedback voltage and a control signal for controlling a pulse width modulation signal, which is based on the digital signal; and a pulse width modulation signal generation circuit for generating the pulse width modulation signal, to which the count signal and the control signal are input, in which the control signal controls the duty cycle of the pulse width modulation signal, and the setting control signal controls the cycle of updating the duty cycle of the pulse width modulation signal. | 2017-10-05 |
20170288542 | APPARATUSES AND METHODS FOR A LOAD CURRENT CONTROL CIRCUIT FOR A SOURCE FOLLOWER VOLTAGE REGULATOR - According to one embodiment of this disclosure, an apparatus is disclosed. The apparatus includes a voltage regulator configured to produce a regulated voltage, a plurality of current circuits coupled in parallel between an output node and a power node, each of the plurality of current circuits including first and second transistors coupled in series, the first transistor of each of the plurality of current circuits being biased with the regulated voltage, and a control circuit configured to activate the second transistor of selected one or ones of the plurality of current circuits responsive, at least in part, to a voltage at the output node. | 2017-10-05 |
20170288543 | DC OFFSET CORRECTION FOR INDUCTOR CURRENT RIPPLE BASED, CONSTANT-ON-TIME DC-DC CONVERTERS - Embodiments of a circuit for controlling DC offset error for an inductor current ripple based, constant-on time DC-DC converter are disclosed. The circuit includes a ripple generation circuit coupled to a reference voltage input and to a sense voltage input, and having a reference voltage output to form a main loop. The circuit also includes a DC error correction circuit connected between the reference voltage input and the sense voltage input, and the reference voltage output of the ripple generation circuit. The DC error correction circuit includes a coarse DC error correction loop coupled between the sense voltage input and the reference voltage output and a fine DC error correction loop coupled between the reference voltage input and the reference voltage output. A method for controlling DC offset error for an inductor current ripple based, constant-on time DC-DC converter, is also disclosed. | 2017-10-05 |
20170288544 | CHOPPER CIRCUIT - A chopper circuit includes a controller that performs control of turning on a second switching device when a short circuit detector detects a short circuit of a first diode, and performs control of turning on a first switching device when the short circuit detector detects a short circuit of a second diode. | 2017-10-05 |
20170288545 | CIRCUIT DEVICE, SWITCHING REGULATOR, AND ELECTRONIC - A circuit device includes a first switching circuit that has one end connected to an output node, and turns on and off according to a drive signal, a second switching circuit that is connected in series with an impedance element between another end of the first switching circuit and a node having a predetermined potential, and turns off and on complementarily with the first switching circuit, a comparator circuit that outputs an output signal indicating whether or not a potential of the other end of the first switching circuit is higher than a determination level, and a control circuit that controls a level of the drive signal based on the output signal of the comparator such that the switching element enters a non-conduction state. | 2017-10-05 |
20170288546 | Zero Voltage Switching - A method for providing non-resonant zero-voltage switching in a switching power converter. The switching power converter converts power from input power to output power during multiple periodic switching cycles. The switching power converter includes a main switch and an auxiliary capacitor adapted for connecting to the main switch, and an inductor connectible to the auxiliary capacitor. When the main switch is on, a previously charged (or previously discharged) auxiliary capacitor is connected to the main switch with auxiliary switches. The main switch is switched off with zero voltage while discharging non-resonantly (charging) the auxiliary capacitor by providing a current path to the inductor. The auxiliary capacitor is disconnected from the main switch. The voltage of the auxiliary capacitor is charged and discharged alternatively during subsequent switching cycles. The voltage of the auxiliary capacitor stays substantially the same until the subsequent turn off of the main switch during the next switching cycle with substantially no energy loss in the auxiliary capacitor. | 2017-10-05 |
20170288547 | ELECTRIC SOURCE CONTROL APPARATUS - An electric source control apparatus has: a determining device for determining whether a converter operates in a first mode or a second mode, wherein the first mode prioritizes increase of efficiency of the electric power conversion than the second mode does and the second mode prioritizes suppression of increase of element temperature of the switching element than the first mode does; and a controlling device for controlling the converter so that (i) a switching pattern becomes a first pattern, if the converter operates in the first mode and (ii) the switching pattern becomes a second pattern, if the converter operates in the second mode, wherein the first pattern is capable of increasing the efficiency of the electric power conversion more than the second pattern is and the second pattern is capable of suppressing the increase of the element temperature more than the first pattern is. | 2017-10-05 |
20170288548 | Negative Current Clocking - A switching mode power supply (SMPS) configured for clearing an overvoltage condition. The overvoltage is determined by detecting that the output voltage has exceeded the input voltage by a limited amount. The overvoltage is cleared by repetitively turning on and then off the switches controlling the flow of energy to the SMPS in sequence until the excess charge resulting from the overvoltage is couple to circuit ground, and the output is reduced to within acceptable limits. | 2017-10-05 |
20170288549 | SEMICONDUCTOR INTEGRATED CIRCUIT DEVICE AND POWER SUPPLY SYSTEM - A semiconductor integrated circuit device includes a first voltage terminal, a second voltage terminal, an output terminal, a high-side MOSFET connected between the first voltage terminal and the output terminal, a low-side MOSFET connected between the output terminal and the second voltage terminal and having first and second gate electrodes, a drive circuit that complementally switches on and off the high-side MOSFET and low-side MOSFET, and a second gate electrode control circuit that generates a second gate control signal supplied to the second gate electrode of the low-side MOSFET. The second gate electrode control circuit has a voltage generating circuit that supplies a negative voltage negative in polarity relative to a voltage at the source of the low-side MOSFET, to the second gate electrode of the low-side MOSFET. | 2017-10-05 |
20170288550 | ULTRASONIC CONTROL SYSTEM AND METHOD FOR A BUCK-BOOST POWER CONVERTER - A buck-boost power converter includes an inductor driver section, a pulse width modulated (PWM) section, and a switch control section. The inductor driver includes a first switch to selectively couple an input to a first node of an inductor, a second switch to selectively couple the first node of the inductor to a ground node, a third switch to selectively couple a second node of the inductor to the ground node, and a fourth switch to selectively couple the second node of the inductor to an output, and a pulse width modulated (PWM) to generate a PWM control signal responsive to an output level of the output. The switch control is configured to, when an on time of the second switch becomes less than a specified entry value, force the third switch to generate boot refreshing pulses with an on time of a specified duration value at a rate more than a specified frequency, and when an on time of the third switch becomes less than the specified entry value, force the second switch to generate boot refreshing pulses with an on time of the specified duration value at the rate more than the specified frequency. | 2017-10-05 |
20170288551 | POWER CONVERTER FOR A SWITCHING POWER SUPPLY AND MANNER OF OPERATION THEREOF - A switching power supply comprises a power converter that includes a transformer, a low side switch and a high side switch. The low side switch draws current from a supply voltage through a primary winding of the transformer. The high side switch discharges current from the primary winding of the transformer to a snubber capacitor. The controller synchronously controls the opening and closing of the low side switch and the high side switch. The power converter can be included in a flyback converter. The power converter can generate a regulated output voltage. | 2017-10-05 |
20170288552 | POWER CONVERTER AND METHOD OF ENTERING SKIP AT A FIXED OUTPUT POWER IN A LIGHT LOAD CONDITION INDEPENDENT OF MAGNETIZING INDUCTANCE - A power converter has a power transistor and inductor coupled in a conduction path with the power transistor. A switching frequency of the power transistor is reduced during a light load condition. A pulse width of a drive signal to the power transistor is controlled to select a current through the inductor and power transistor corresponding to the switching frequency to maintain a fixed output power of the power converter, and further to vary the current through the inductor and power transistor to maintain the fixed output power of the power converter over a range of switching frequencies. A first number of pulses of the drive signal to the power transistor during a first time period sets the fixed output power of the power converter. No pulses of the drive signal are provided during a second time period after the first time period. | 2017-10-05 |
20170288553 | Power Converter and Power Conversion Method - In accordance with an embodiment, a method includes disabling a first electronic switch connected in series with a primary winding of a transformer in a power converter circuit if an auxiliary voltage across an auxiliary winding of the transformer is outside a predefined voltage range. The power converter circuit further includes a secondary winding of the transformer, and a rectifier circuit connected between the secondary winding and an output, where the rectifier circuit comprises a second electronic switch. | 2017-10-05 |
20170288554 | Power Converter And Power Conversion Method - In accordance with an embodiment, a power conversion method includes operating a power converter circuit in one of a first operation and a second operation mode based on a feedback signal and a signal level of an output signal at an output. The power converter includes a transformer with a primary winding and a secondary winding, a first electronic switch connected in series with the primary winding, and a rectifier circuit connected between the secondary winding and the output and comprising a second electronic switch. The feedback signal is dependent on the output signal | 2017-10-05 |
20170288555 | METHOD FOR DRIVING A RESONANT CONVERTER, AND CORRESPONDING DEVICE AND COMPUTER PROGRAM PRODUCT - A resonant converter includes a primary switching circuit including a primary winding and upper and lower switching half-bridge circuits alternately activated during switching cycles of the resonant converter responsive to switching control signals. The switching half-bridge circuits each include a phase node to drive the primary winding. A resonance inductor is coupled to the primary winding. A secondary resonant circuit has a secondary winding magnetically coupled to the primary winding and a resonance capacitor electrically coupled to the secondary winding. A driving circuit generates the switching control signals and senses if a voltage on the phase node of one of the upper and lower switching half-bridge circuits is a negative voltage. The driving circuit adjusts the switching control signals for the switching half-bridge circuit to be activated next switching cycle by a shift time reduced each switching cycle until the negative voltage is less than a negligible under-voltage value. | 2017-10-05 |
20170288556 | Circuits and Methods for Auxiliary Secondary Supply Generation with Self-Starting Primary Side Driver in Isolated Power Converters - Circuits that provide an auxiliary power supply on the secondary side of an isolated switched-mode power converter are described. Such an auxiliary supply may be used to provide power to a secondary side controller or to other circuitry in the secondary side of the power converter. During at least a start-up phase of the power converter, the secondary side auxiliary power supply is supplied power by use of a self-starting primary side driver that operates autonomously until the secondary side controller is fully operational. Circuits and methods for such a self-starting primary side driver are provided. The techniques disclosed provide for a secondary side auxiliary power supply that uses minimal additional circuitry. | 2017-10-05 |
20170288557 | Energy Channelling Single Stage Power Converter - Energy channelling AC-DC converters, methods, and control systems are provided. The converters comprise a first output circuit that receives power from the input circuit and provides a first output comprising a DC voltage with a first AC voltage ripple or a DC current with a first AC current ripple; a second output circuit that receives power from the input circuit and provides a second output comprising a second AC voltage ripple or a second AC current ripple, the second output circuit having one or more power switching device; and a controller that controls the power switching devices of the input circuit and the second output circuit so that the first output circuit and the second output circuit alternatively rectify output current only once during one switching cycle of the power switching devices; wherein the first output and the second output are connected together (i) in series, such that the first AC voltage ripple is substantially cancelled, or (ii) in parallel, such that the first AC current ripple is substantially cancelled; wherein substantially ripple-free DC output power is provided. | 2017-10-05 |
20170288558 | VOLTAGE DISCHARGE CIRCUIT - Technologies are described for an adaptable power supply that can switch between two or more output voltages. The power supply includes discharge circuitry that utilizes the secondary windings of a transformer as a discharge path when the power supply switches from a high voltage level to a low voltage level. In some embodiments, the discharge circuitry is included within a synchronous rectifier. In other embodiments, the discharge circuitry is separate from the synchronous rectifier. In still other embodiments, the power supply does not include a synchronous rectifier. Whichever embodiment is used, an output capacitor can be discharged through the secondary windings of a transformer and the transformer can store that energy for future use. | 2017-10-05 |
20170288559 | TRANSFORMER - A transformer includes a front stage circuit and a rear stage circuit. As a front stage circuit, a switch series unit, which is connected in parallel to a power supply, includes odd-numbered switches and even-numbered switches alternately turned ON. Mutual connection points of the respective switches and points at both ends of the switch series unit are regarded as m nodes in total. Capacitors are provided on at least one of a first electrical path combining odd nodes to lead them to a first output port, and a second electrical path combining even nodes to lead them to a second output port. The capacitors are present so as to correspond to at least (m−1) nodes. The rear stage circuit includes an element series unit, which is composed of a pair of semiconductor elements connected in series to each other for conducting operations of mutually opposite polarities, and necessary inductors. | 2017-10-05 |
20170288560 | ARRANGEMENT FOR CONNECTING A RAILWAY POWER SUPPLY FOR A RAILWAY TRACK TO A THREE-PHASE SUPPLY NETWORK - An arrangement for connecting a railway power supply for a railway track to a three-phase supply network. The arrangement has a three-phase AC transformer and a balancing device for a uniform electric load of the three phases of the three-phase supply network. The three-phase AC transformer is configured for connecting to the three-phase supply network on the primary side and is connected to the balancing device on the secondary side. The three-phase AC transformer is configured for connecting to a railway power supply which has an autotransformer system with two contact lines and two conductors that are carried along the railway track in an insulated manner. | 2017-10-05 |
20170288561 | Microgrid Power Architecture - Power converters, and microgrids driven by such a power converter, in which the converter is controlled by a proportional controller which operates directly on AC waveforms, preferably without conversion to a DC type signal; preferably with use of voltage compensation to remove inherent error of proportional controller; and preferably with use of individual phase RMS voltages in the voltage compensation, to allow for normal operation under any load condition. Undervoltage of one or two phases is automatically compensated by adjusting the voltage of all phases, to retain balance. Line-starting of a motor load is automatically detected, and frequency droop is driven, apart from the other control relations in the system, to complete the line-starting operation as quickly as possible. | 2017-10-05 |
20170288562 | System, Apparatus And Method For Improving Input Power Quality In A Modular Power Inverter - In one embodiment, a system includes a plurality of slices each having a transformer including a primary winding to couple to an input power source and a plurality of secondary windings each to couple to one of a plurality of power cells of the slice. Each of the power cells of a first slice may have an output that is phase rotated with respect to a correspondingly positioned power cell of a second slice. | 2017-10-05 |
20170288563 | SERIES MODULE ASSEMBLY WITH A POWER BUS SYSTEM - A series module assembly particularly for drive technology includes a bus system and series modules arranged in side by side in a row on a mounting base. The series modules each have an electronics housing in which at least one electronic element is arranged. The bus system includes busbars that extend outside of the electronics housing, wherein at least one of the busbars can be electrically connected to the electronic element of one of the series modules via a plug assembly. The series module assembly is designed for wall mounting. The bus bars are pre-assembled with a mounting and bus rail and anchored to the wall. The mounting and bus rail is configured so that the series modules can be mounted on the mounting and bus rail in a direction parallel to the wall in order to establish contact with the busbars. The mounting and bus rail can be adjustably mounted at a selected distance from the wall. | 2017-10-05 |
20170288564 | POWER CONVERSION APPARATUS AND METHOD FOR MANUFACTURING THE SAME - A second lead frame is set onto a conductive layer and a busbar. The second lead frame has holes previously formed at opposite ends thereof, and pieces of solder material or solder pieces are inserted into the holes. Then, the solder pieces are vibrated by an ultrasonically vibrating tool, whereby the solder pieces are melted without having a high temperature. The second lead frame is thus bonded to the conductive layer and the busbar. A semiconductor element and the busbar are connected by a first lead frame and the second lead frame. The connection structure thereof is such that the second lead frame to be bonded by ultrasonic bonding or other bonding methods is not directly in contact with the semiconductor element, which eliminates the risk of damage to the semiconductor element. | 2017-10-05 |
20170288565 | INVERTER WITH A MULTI-PART HOUSING AND AN INTERNAL COOLING-AIR DUCT - An inverter for converting an input-end direct current into an output-end alternating current to be fed into an AC voltage supply system includes a first housing part with direct current connections for receiving direct current lines of a direct current generator, a second housing part with alternating current connections for receiving alternating current lines of an AC voltage supply system, a third housing part for accommodating power-electronics components of a DC voltage converter, and a fourth housing part for accommodating power-electronics components of an inverter bridge circuit. The housing parts each have an essentially planar rear wall and are arranged in such a way that they enclose a cooling-air duct with an essentially rectangular cross section, wherein the first housing part is arranged opposite the second housing part and the third housing part is arranged opposite the fourth housing part. The inverter also includes a heat sink, which has two essentially planar cooling faces opposite one another arranged in the cooling-air duct, wherein the cooling faces are assigned to the rear walls of the third housing part and the fourth housing part and are in thermal contact with power-electronics components arranged in these housing parts. | 2017-10-05 |
20170288566 | Quiescent Power Supply - A quiescent power supply including an AC/DC converter, a switch, an energy storage device, and a controller is disclosed. The switch is electrically coupled to the AC/DC converter to electrically disconnect the AC/DC converter from an AC supply line. The controller is operably coupled to the switch to actuate the switch. In particular, the controller can actuate the switch to disconnect the switch during when the AC/DC converter is idle. | 2017-10-05 |
20170288567 | POWER CONVERSION DEVICE - A power converter including a compressor as a load includes a compensation current output ( | 2017-10-05 |
20170288568 | RECTIFIER CIRCUIT, AND CORRESPONDING DEVICE AND METHOD - A rectifier cell includes a first cell branch and a second cell branch that extend in parallel between two opposite nodes receiving an a.c. signal. The first cell branch includes a first pair of transistors arranged with their current paths cascaded, with a first intermediate point in-between. The second cell branch includes a second pair of transistors arranged with their current paths cascaded, with a second intermediate point in-between. Each of the pairs of transistors includes a first transistor with a control terminal coupled to one of the two opposite nodes and a second transistor with a control terminal coupled to the other of the two opposite nodes. The bulks of the transistors receive voltages in order to vary the transistor threshold voltage by bringing the threshold voltage to a first value during forward conduction and to a second value during reverse conduction. | 2017-10-05 |
20170288569 | POWER CONVERTER - In a multilevel converter, three switches are connected between three arms and three reactors, and three resistive elements are connected to the respective three switches in parallel. The three switches are configured to be in a conductive state during a normal operation. The three switches are configured to come into a non-conductive state when a short circuit accident occurs between two DC power transmission lines, whereby an inter-arm direct current flowing in four arms and the like is quickly attenuated by the three resistive elements. | 2017-10-05 |
20170288570 | ELECTRICAL SERVICE INTERFACE SYSTEM - An electrical service interface system include a configurable device and inverter mounted to an equipment tower, wherein each of the configurable device and inverter include alignment devices configured to rollably mount the configurable device and inverter to corresponding guides mounted to a support pad, and to align the configurable device to the inverter, and the inverter to the equipment tower. In an installed configuration, the configurable device electrically and mechanically couples to the inverter via a DC connector and one or more mounting systems, and the inverter mechanically and electrically couples to the equipment tower via an AC connector and one or more mounting systems. | 2017-10-05 |
20170288571 | ELECTRICAL ENERGY TRANSMISSION SYSTEM - An electrical energy transmission system has a three-phase electric current power source generating a three-phase electric current signal including three currents having different phases, a three-phase electric current signal converting device which converts the generated three-phase electric current signal by providing a coincidence of the phases of the currents, a single-wire electrical energy transmission line which transmits the converted electric current signal from the electric current power source to a load, and a device for adjusting electrical parameters of the electric signal at a side of the three-phase electric current power source and/or at a side of the load, when the electric current power source and/or the load have variable power parameters, to provide thereby a stable operation of the electrical energy transmission system. | 2017-10-05 |
20170288572 | Oil Type Phase Shift Transformer for Medium Voltage Inverter System - Disclosed is a phase shift transformer for supplying voltage to a plurality of unit power cells in a medium voltage inverter system. The phase shift transformer according to the present invention comprises a first bushing arranged by the side of a tank and connected to a first winding to apply high voltage and a plurality of second bushings arranged on the top of a cover and connected to each of a plurality of second windings to output low voltage, wherein three outputs of the plurality of second bushings can be applied to unit power cells. | 2017-10-05 |
20170288573 | APPARATUS FOR BALANCING VOLTAGES OF DC LINK CAPACITOR IN INVERTER - An apparatus for balancing a voltage of a direct current (DC) link capacitor of an inverter is provided. The apparatus of the present disclosure includes a switching unit connected to a node (a reference point) between the first and second resistors, which are connected in series to each other, and a node (a neutral point) between the first and second capacitors, which are connected in series to each other, and configured to short and open between the reference point and the neutral point, and a control unit configured to control the switching unit to short between the reference point and the neutral point when a voltage of the reference point (a reference point voltage) and a voltage of the neutral point (a neutral point voltage) are different from each other. | 2017-10-05 |
20170288574 | NEUTRAL POINT REGULATOR HARDWARE FOR A MULTI-LEVEL DRIVE - The present disclosure relates generally to a neutral point balancing scheme for power converter systems. The balancing circuit includes a first side of a first electrical component operably coupled to a mid-point of the DC link capacitor bank, and a switching combination operably coupled to the second side of the first electrical component, a positive voltage, and a negative voltage rail, wherein the switching combination is configured to generate a pulse-width modulation signal at the second side of the first electrical component. | 2017-10-05 |
20170288575 | POWER CONVERTER - A power converter includes: a plurality of external terminals; a grounded earth terminal; a power conversion circuit; a ground conductor; and a plurality of inductors. A plurality of nodes of the power conversion circuit are connected to the respective plurality of external terminals. The power conversion circuit performs power conversion by switching received power. A plurality of inductors are inserted between the plurality of external terminals and the plurality of nodes. Further, another inductor is inserted between the ground conductor and the earth terminal. In this way, there can be provided a power converter that provides a sufficient noise reduction effect also in a high frequency region. | 2017-10-05 |
20170288576 | SELF-POWERED PIEZOELECTRIC ENERGY HARVESTING MICROSYSTEM - A self-powered piezoelectric energy harvesting microsystem device has CMOS integrated circuit elements, contacts and interconnections formed at a proof mass portion of a die region of a semiconductor wafer. Piezoelectric energy harvesting unit components connected to the integrated circuit elements are formed at a thinned beam portion of the die region that connects the proof mass portion for vibration relative to a surrounding anchor frame portion. A battery provided on the proof mass portion connects to the integrated circuit elements. In a cantilever architectural example, the battery is advantageously located at a distal end of the proof mass portion, opposite the joinder with frame portion via the beam portion. | 2017-10-05 |
20170288577 | DEVICE AND METHOD FOR SWITCHING IN AND OUT A START WINDING OF A SINGLE PHASE AC MOTOR - A device for switching in and out a start winding of a single phase AC motor using an energizer winding to generate voltage which can be used to power a simple timing switch circuit. The AC voltage is rectified and converted to DC voltage. The DC voltage is then used to drive a normally closed solid state switch to an open state which in turn inactivates a triac connected to the start winding in the motor. The “on time” of the start winding is controlled by a RC circuit that ramps the voltage to the gate of a FET that drives current through the normally closed solid state switch. | 2017-10-05 |
20170288578 | POWER SUPPLY APPARATUS - According to one embodiment, the controller configured to, when an operation of the boosting circuit is in the boosting mode, and if an instantaneous value Ia of a current flowing through the reactor lowers to a value smaller than or equal to a set value Ias, switch the operation of the boosting circuit from the boosting mode to the non-boosting mode. | 2017-10-05 |
20170288579 | METHOD FOR MAKING A MOTOR QUIETER - The method is for making an electric motor more efficient by iteratively changing when a processor sends activation signals to transistors to minimize a current required to rotate a rotor at a constant rotational speed. The method is also for changing a rotational direction of the rotor by switching the order in which activation signals are sent to the transistors. | 2017-10-05 |
20170288580 | POWER TOOL AND MOTOR DRIVE SYSTEM THEREOF - A motor drive system is provided, which includes: an inverter including an upper-half bridge and a lower-half bridge, the upper-half bridge and the lower-half bridge each including at least two semi-conductive switch elements, where the inverter is configured to convert a voltage provided by a power supply to an alternating current to drive a motor; a microcontroller configured to output a drive signal to the alternately turn on each two of the at least two semi-conductive switch elements of the upper-half bridge and each two of the at least two semi-conductive switch elements of the lower-half bridge when the motor performs braking, whereby a motor winding and the turned-on semi-conductive switch elements form a circuit a capacitor configured to supply power to the microcontroller when the motor performs braking. | 2017-10-05 |
20170288581 | METHOD AND CIRCUIT FOR CONTROLLING OR STARTING A U-SHAPE SINGLE PHASE SYNCHRONOUS PERMANENT MAGNET MOTORS - A method and circuit for controlling or starting a U-shape single phase synchronous permanent magnetic motor (U-SPSPM motor) having a rotor and a stator and coupled to a single phase alternating current (AC) power source through a switch, including estimating back electromotive force (back-EMF) of the motor based on an observer model with inputs indicative of the measured signals, and triggering the switch to supply power to the motor based on the estimates of the back-EMF. | 2017-10-05 |
20170288582 | SYSTEMS AND METHODS FOR CALCULATING MOTOR POSITION, INERTIA AND REST POSITION IN SENSORLESS BRUSHED DC MOTOR CONTROL SYSTEMS - A system according to the present disclosure includes a motor driver module and a motor position determination module. The motor driver module is configured to measure current supplied to a motor. The motor position determination module is configured to determine a first position of the motor at a first time when power supply to the motor is initially discontinued based on ripples in the current supplied to the motor during a first period before the first time. The motor position determination module is configured to determine a second position of the motor at a second time when the motor stops rotating after power supply to the motor is discontinued based on the first position of the motor and a rotational speed of the motor at the first time. | 2017-10-05 |
20170288583 | POWER TOOL AND MOTOR DRIVE SYSTEM THEREOF - A motor drive system is provided, which includes an inverter coupled with two terminals of a power supply, where the inverter includes multiple semi-conductive switch elements and is configured to convert a voltage provided by the power supply to an alternating current to drive a motor; a microcontroller coupled with two terminals of the power supply, where the microcontroller has an operation mode and a sleep mode; and a switch body, of which two terminals are respectively coupled with two terminals of the microcontroller, where the switch body is configured to output a response signal to the microcontroller to switch the microcontroller from the operation mode to the sleep mode or from the sleep mode to the operation mode according to the response signal. | 2017-10-05 |
20170288584 | POWER TOOL AND MOTOR DRIVE SYSTEM THEREOF - A motor drive system is provided, which includes: an inverter coupled with two terminals of a power supply, where the inverter includes multiple semi-conductive switch elements and is configured to convert a voltage provided by the power supply to an alternating current to drive a motor; a microcontroller configured to output a drive signal to control an power mode of the semi-conductive switch elements in the inverter; and a rheostat coupled with the microcontroller and configured to provide an input signal to the microcontroller by sliding, where the microcontroller outputs a brake signal to the inverter to control the motor to stop operating when the input signal meets a predetermined condition, and the microcontroller is powered off when the motor stops rotating. | 2017-10-05 |
20170288585 | POWER TOOL WITH ELECTRIC MOTOR AND AUXILIARY SWITCH PATH - A power tool is configured to receive power from a power supply. The power tool may include a rectifier that may output a rectified signal to a DC power bus. A switching arrangement may operate to deliver electric power from the DC power bus to an electric motor. A switch path may be electrically coupled in parallel with the rectifier on the DC power bus. The switch path includes an auxiliary capacitor in series with a switch and a state of the switch controls a discharging path for the auxiliary capacitor. A switch control circuit may be configured to detect voltage associated with at least one of the AC power supply or the DC power bus and to control state of the switch in accordance with magnitude of the detected voltage. | 2017-10-05 |
20170288586 | VARIABLE MAGNETIZATION MACHINE CONTROLLER - A variable magnetization machine control system comprising a controller configured to adjust a d-axis current waveform and a q-axis current waveform in accordance with an operating condition of a variable magnetization machine to generate an adjusted d-axis current waveform and an adjusted q-axis current waveform that provide a driving voltage to drive the variable magnetization machine at a predetermined speed while maintaining the driving voltage below a predetermined maximum magnitude. | 2017-10-05 |
20170288587 | METHOD FOR CONTROLLING AN ASYNCHRONOUS ELECTRICAL MOTOR - A method for controlling an asynchronous electrical motor, implemented in a processing unit associated with a power converter connected to the electrical motor, the method including an identification phase, which includes generating a speed trajectory in input of a control law of the motor in order to make the speed reference take several determined successive values, for each value taken by the speed reference, determining the voltage at the terminals of the electrical motor, for each value taken by the speed reference, determining and storing the flux value for which the voltage at the terminals of the electrical motor is equal to a determined threshold value. | 2017-10-05 |
20170288588 | MOTOR CONTROL DEVICE AND MOTOR CONTROL METHOD - An object is to ensure torque accuracy by suppressing the occurrence of low-frequency fold-back noise caused by aliasing, and stable control performance with respect to environmental variations, such as angular errors, power voltage ripples, and so on. | 2017-10-05 |
20170288589 | MOTOR DRIVING APPARATUS, SHEET CONVEYANCE APPARATUS, DOCUMENT FEEDING APPARATUS, DOCUMENT READING APPARATUS AND IMAGE FORMING APPARATUS - A motor control unit controls a driving current that flows through a coil of a motor to be driven, by controlling a PWM signal supplied to an H bridge circuit constituted by FETs. A current value generation unit detects a driving current based on a voltage that occurs across a current detection resistor, and corrects a detection value by using a first or second correction value. The current value generation unit, if the driving current is detected in the H period of the PWM signal, corrects the detection value by using the first correction value, and if the driving current is detected in the L period of the PWM signal, corrects the detection value by using the second correction value that has a polarity different from a polarity of the first correction value. | 2017-10-05 |
20170288590 | MOTOR CONTROL APPARATUS, SHEET CONVEYING APPARATUS, IMAGE FORMING APPARATUS - A motor control apparatus operates in a first control mode in which the values of a torque current component and an excitation current component are controlled so that the difference between an instruction phase and a rotation phase is decreased and a second control mode in which constant current is supplied to a winding of a motor. The second control mode is switched to the first control mode if the rotation speed is varied from a value lower than a first threshold value to a value not lower than the first threshold value in the second control mode and the first control mode is kept even if the rotation speed is varied from a value not lower than the first threshold value to a value that is not lower than a second threshold value and that is lower than the first threshold value in the first control mode. | 2017-10-05 |
20170288591 | APPARATUS FOR CORRECTING CURRENT REFERENCE - The present disclosure relates to an apparatus for correcting a current reference, and more particularly, to an apparatus for correcting a current reference including a calculation unit configured to set a first torque reference section and a second torque reference section using candidate values of a correction factor that corrects the current reference so as to enable the current reference to satisfy rated operating conditions of the induction machine, and calculate the correction factor according to a section, in which the torque reference is included, of the first torque reference section and the second torque reference section, and a correction unit configured to correct the current reference using the correction factor. | 2017-10-05 |
20170288592 | ELECTRIC ENERGY CONVERTER, POWER TRAIN COMPRISING SUCH A CONVERTER AND RELATED ELECTRIC TRANSPORT VEHICLE - This electric energy converter for converting a first energy into a second energy comprises two first terminals for the first energy, at least one second terminal for the second electric energy, P switching arms, each including two switching half-arms connected in series between the two first terminals and connected to one another at a midpoint that is connected to a respective second terminal. Each half-arm including N switching half-branches connected in parallel, N≧2, each switching half-branch including a switch. | 2017-10-05 |
20170288593 | POWER SUPPLY SYSTEM - A converter includes one chip constituted a switching device and a diode. An electronic control unit is configured to calculate a temperature estimated value of the switching device from control conditions of the converter, restrict a control upper-limit value of charge power or discharge power of a battery, when a detection value of a temperature sensor is higher than the temperature estimated value of the switching device, and the detection value of the temperature sensor exceeds a protection temperature of the diode, and restrict a control upper-limit value of charge power or discharge power of the battery, when the detection value of the temperature sensor is lower than the temperature estimated value of the switching device, and the detection value of the temperature sensor exceeds a protection temperature of the switching device. | 2017-10-05 |
20170288594 | INVERTER CONTROL APPARATUS AND AIR CONDITIONER - A controller of an inverter control apparatus includes an A/D conversion unit that performs digital conversion of an input signal when a signal for either an A/D converter start trigger or an A/D converter start trigger is input thereinto; a first inverter control unit that generates the A/D converter start trigger which starts the A/D conversion unit, based on A/D converter start timing information and a first carrier signal; a second inverter control unit that generates the A/D converter start trigger which starts the A/D conversion unit, based on A/D converter start timing information and a second carrier signal; and an A/D start factor selection unit that receives either the A/D converter start trigger or the A/D converter start trigger and selects an A/D start factor at a predetermined period timing of an operation period of the first carrier signal and the second carrier signal. | 2017-10-05 |
20170288595 | MOTOR DRIVE APPARATUS AND AIR CONDITIONER - A motor drive apparatus driving a motor as a three-phase motor converting direct power into three-phase alternating power, includes: inverter modules 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. | 2017-10-05 |
20170288596 | CONTROL DEVICE FOR MOTOR HAVING PLURALITY OF WINDINGS - A control device for a motor is provided that can determine the states of current controllers controlling the current flowing to windings, as well as reducing the load of arithmetic processing. A control device for a motor having windings includes: a main current controller that is connected with a numerical control and controls current flowing to the winding; and sub-current controllers that are connected with the main current controller and control current flowing to the windings, respectively, in which the main current controller: calculates states of the main current controller and the sub-current controllers, compares between the states of the main current controller and the sub-current controllers thus calculated, and determines whether an abnormality is occurring in the main current controller and the sub-current controllers based on a result of comparing between the states of the main current controller and the sub-current controllers. | 2017-10-05 |
20170288597 | SEMICONDUCTOR DEVICE - In a semiconductor device in the related art, it has been necessary to match the threshold voltage of a power element with the circuit operation of a gate driver; accordingly, it has been difficult to realize the operation of the gate driver most appropriate for the employed power element. According to one embodiment, when a power element is turned off, the semiconductor device monitors the collector voltage of the power element, and increases the number of NMOS transistors that draw out charges from the gate of the power element in a period until the collector voltage becomes lower than the pre-set determination threshold, rather than in the period after the collector voltage becomes lower than the determination threshold. | 2017-10-05 |
20170288598 | SYSTEM AND METHOD FOR CONSISTENT SPEED REGULATION IN A VARIABLE FREQUENCY DRIVE - A system and method for speed regulation of a VFD circuit via an anti-windup control scheme that provides consistent speed response with no overshoot is disclosed. A control system for operating the VFD circuit includes a feedback controller programmed to receive a speed of a motor operating responsive to an initial torque command and process the speed of the motor to generate a feedback controller output. A feedforward controller of the control system is programmed to process a speed reference to generate a feedforward controller output. A command module of the control system is programmed to determine a torque command based on the processed outputs of the feedback and feedforward controllers and operate the VFD circuit to control the motor according to the torque command. | 2017-10-05 |
20170288599 | AUTOMATED COMMISSIONING AND INSPECTION FOR PV SYSTEMS - An electric system includes a local power controller and solar panel system that includes a plurality of solar modules on one or more branch circuits. A method for commissioning the electric system includes an installer using a commissioning device to send and receive information from a remote system and the local power controller performing an automatic self-test of the electric system. The results of the self-test may be packaged with photographs and measurements of the electric system and sent to a remote system where an inspector can inspect the electric system remotely. After receiving approval by the inspector, the local power controller may automatically activate each branch circuit of the electric system and thus enabling the electric system to generate electricity. | 2017-10-05 |
20170288600 | Solar Siding - A wall mounting solar panel encasing comprising a plurality of energy conversion devices embedded on the solar panel encasing that is constructed from a plurality of building materials such as wood, plastic, aluminum, vinyl, rock or concrete and provides appealing designs matching to building structures. The solar panel housed with a series of energy conversion devices that provide transformed electrical energy. The solar panel encasing is mountable in a horizontal, vertical or inclined manner depending upon the building architecture. A solar encasing housed with solar panels, carrying a series of solar cells. The structure of solar encasing provides a number of applications to contribute to uninterrupted electrical energy generation and generating power independent building structures. | 2017-10-05 |
20170288601 | MODULAR STRAP MOUNT FOR SOLAR PANELS - A method and apparatus for mounting a solar collector panel by itself or supported within a frame, to a surface comprising: a strap assembly, a first attachment device attached to and between the panel or frame and the strap assembly; and a second attachment means for attaching the strap assembly to the surface. The strap assembly comprises a plurality of straps attached end to end. The first attachment device could be a bolt, a screw, adhesive, etc. Alternatively, there could be a support between the panel or frame and the strap assembly. The second attachment means may be: a nail, a spike, adhesive, bolting to a stud attached to the surface, welding, ballast, adhesive tape or combinations of these. | 2017-10-05 |
20170288602 | Roof Attachment Flashing Assembly - The present invention relates to a novel and improved roof flashing assembly for use in supporting hardware needed to install solar panel arrays on shingle roofs. The assembly is both easy to install and provides an improved watertight seal at the location where the assembly is secured to the rafters of the roof over the state of the art. | 2017-10-05 |
20170288603 | SOLAR PANEL SELF-STORING ADJUSTABLE ANGLE MOUNT - This invention provides solar applications with a strong, light, universal solar panel mount that pivots inside the solar panel frame for compact storage or transport with no disassembly. It also pivots out at adjustable angles to work with any latitude or season without assembly. The mount is adjustable to a wide range of solar panel angles to allow the solar panel to best match the sun angle for multiple latitudes and seasons of the year. It can be temporarily free standing or permanently placed via the use of the attachment points. | 2017-10-05 |
20170288604 | SOLAR PANEL DESIGN ASSEMBLY - A solar panel assembly according to an example of the present disclosure includes a light-permeable panel, an opaque or solid region on the panel that at least partially blocks light from penetration through the panel, at least one solar array adjacent the panel, and at least one mirror situated such that at least some light permeating through the panel reflects off of the at least one mirror and onto the at least one solar array. | 2017-10-05 |
20170288605 | SOLAR ENERGY LIGHT COLLECTING DEVICE AND SYSTEM THEREOF - Provided herein is a solar energy light collecting device, which includes a light reflection module, a sun tracking module, and a control module. The light reflection module includes reflection units, reflection unit support beams and a support wheel frame assembly. The sun tracking module includes an angle adjustment set, a height adjustment set, and a supporter set. The control module includes a sense control unit and a driving motor. The sense control unit senses the direction of the sunlight and controls the driving motor to drive the sun tracking module, such that the light reflection module faces the direction of the sunlight. Moreover, an additional balance adjustment module can also be adopted to resolve the spatial disposition problem. | 2017-10-05 |
20170288606 | MEASUREMENT SYSTEM, CONTROL DEVICE, METHOD OF CONTROLLING MEASUREMENT SYSTEM, AND PROGRAM - A measurement system includes a solar panel, a support which supports a position of the solar panel in a changeable manner, a battery which stores electric power from the solar panel, a sensor which detects a state of a structure based on electric power from the solar panel, and a processing unit which performs processing based on sensor information from the sensor. The position of the solar panel supported by the support is different in a first predetermined period and a second predetermined period. | 2017-10-05 |
20170288607 | BALANCED UNILATERAL FREQUENCY QUADRUPLER - An integrated frequency quadruplet consists of a pair of balanced frequency doublers that are driven in phase quadrature using a hybrid coupler. This approach results, effectively, in a “unilateral” multiplier that presents a match to the input-driving source, irrespective of the impedance of the doubler stages. The present invention applies this architecture to implement an integrated frequency quadruplet with output frequency of 160 GHz using quasi-vertical GaAs varactors fabricated on thin silicon support membranes. The quadruplet has a balanced circuit architecture that addresses degradation issues often arising from impedance mis-matches between multiplier stages. A unique quasi-vertical diode process is used to implement the quadruplet, resulting in an integrated drop-in chip module that incorporates 18 varactors, matching networks and beamleads for mounting. The chip is tailored to fit a multiplier waveguide housing resulting in high reproducibility and consistency in manufacture and performance. | 2017-10-05 |
20170288608 | Double Balanced Mixer - A FET based double balanced mixer (DBM) that exhibits good conversion gain and IIP3 values and provides improved linearity and wide bandwidth. In one embodiment, a first balun is configured to receive a local oscillator (LO) signal and generate two balanced LO signals that are coupled to two corresponding opposing nodes of a four-node FET ring. A second balun is configured to pass an RF signal on the unbalanced side. The FET ring includes at least four FETs connected as branches of a ring, with the source of each FET connected to the drain of a next FET in the ring. Each FET is preferably fabricated as, or configured as, a low threshold voltage device having its gate connected to its drain, which causes the FET to operate as a diode, but with the unique characteristic of having close to a zero turn-on voltage. | 2017-10-05 |
20170288609 | MULTI-MODE STACKED AMPLIFIER - Aspects of this disclosure relate to an amplification circuit that includes a stacked amplifier and a bias circuit. The stacked amplifier includes at least a first transistor and a second transistor in series with each other. The stacked amplifier is operable in at least a first mode and a second mode. The bias circuit is configured to bias the second transistor to a linear region of operation in the first mode and to bias the second transistor as a switch in the second mode. In certain embodiments, the amplification circuit can be a power amplifier stage configured to receive a supply voltage that has a different voltage level in the first mode than in the second mode. | 2017-10-05 |
20170288610 | BOOSTER CIRCUIT INCLUDING DYNAMICALLY SLIDING POWER SUPPLY UNIT - A dynamic boost audio system includes a booster circuit having a dynamically sliding power supply unit (PSU) capable of outputting power among a plurality of different power levels. The booster circuit is configured to identify a real-time audio level of an audio signal, and automatically adjust the power to the power level such that the audio signal is output in response to the real-time audio level. | 2017-10-05 |
20170288611 | POWER AMPLIFICATION MODULE - A power amplification module includes a first transistor which amplifies and outputs a radio frequency signal input to its base; a current source which outputs a control current; a second transistor connected to an output of the current source, a first current from the control current input to its collector, a control voltage generation circuit connected to the output and which generates a control voltage according to a second current from the control current; a first FET, the drain being supplied with a supply voltage, the source being connected to the base of the first transistor, and the gate being supplied with the control voltage; and a second FET, the drain being supplied with the supply voltage, the source being connected to the base of the second transistor, and the gate being supplied with the control voltage. | 2017-10-05 |
20170288612 | EFFICIENT WIDE BANDWIDTH ENVELOPE TRACKING POWER SUPPLY - An envelope tracking power supply, which includes a parallel amplifier, switching circuitry, and a parallel switching supply, is disclosed. The envelope tracking power supply provides an envelope power supply signal to a load. The parallel amplifier regulates an envelope power supply voltage of the envelope power supply signal based on a setpoint of the envelope power supply voltage. The switching circuitry at least partially provides the envelope power supply signal via a first inductive element and drives an output current from the parallel amplifier toward zero. The parallel switching supply provides an assist current to further drive the output current from the parallel amplifier toward zero based on an estimate of a current in the first inductive element and an estimate of a current in the load. | 2017-10-05 |
20170288613 | BROADBAND DOHERTY POWER AMPLIFIER - A power amplifier circuit includes a main amplifier circuit having a main amplifier for amplifying an input signal in one of a full-power mode and at least a back-off mode. A first peak amplifier circuit is in parallel with the main amplifier circuit. The first peak amplifier circuit has a peak amplifier in series with a transmission line. The peak amplifier is configured to be activated in the full-power mode and to be de-activated in at least the back-off mode. A combining node is connected to an output of the main amplifier circuit and an output of the transmission line. In some embodiments, a matching network is connected at the output of the combining node. In some embodiments, the transmission line is selected so the first peak amplifier circuit appears substantially as an open circuit to the combining node. | 2017-10-05 |
20170288614 | HIGH-FREQUENCY SIGNAL AMPLIFIER CIRCUIT, POWER AMPLIFIER MODULE, FRONT-END CIRCUIT, AND COMMUNICATION APPARATUS - A high-frequency signal amplifier circuit is used in a front-end circuit configured to propagate a high-frequency transmission signal and a high-frequency reception signal, and includes an amplifier transistor configured to amplify the high-frequency transmission signal; a bias circuit configured to supply a bias to a signal input end of the amplifier transistor; and a ferrite bead, one end of which is connected to a bias output end of the bias circuit and the other end of which is connected to the signal input end of the amplifier transistor, having characteristics in which impedance in a difference frequency band between the high-frequency transmission signal and the high-frequency reception signal is higher than impedance in DC. | 2017-10-05 |
20170288615 | TEMPERATURE COMPENSATED OFFSET CANCELLATION FOR HIGH-SPEED AMPLIFIERS - An apparatus, system, and method are disclosed for compensating input offset of an amplifier having first and second amplifier output nodes. The method comprises generating a proportional-to-absolute temperature (PTAT) current, generating a complementary-to-absolute temperature (CTAT) current, and selecting, based on the input offset, one of the first and second amplifier output nodes into which a compensation current is to be coupled. The compensation current is based on a selected one of the PTAT current and CTAT current. | 2017-10-05 |
20170288616 | POWER AMPLIFICATION CIRCUIT - A power amplification circuit that includes: a capacitor element in which a first metal layer, a first insulating layer, a second metal layer, a second insulating layer and a third metal layer are sequentially stacked, the capacitor element including a first capacitor in which the first metal layer serves as one electrode thereof and the second metal layer serves as another electrode thereof, and a second capacitor in which the second metal layer serves as one electrode thereof and the third metal layer serves as another electrode thereof; and a transistor that amplifies a radio-frequency signal. The radio-frequency signal is supplied to the one electrode of the first capacitor. The other electrode of the first capacitor and the one electrode of the second capacitor are connected to a base of the transistor, and the other electrode of the second capacitor is connected to the emitter of the transistor. | 2017-10-05 |
20170288617 | PROGRAMMABLE AMPLIFIER CIRCUIT CAPABLE OF PROVIDING LARGE OR LARGER RESISTANCE FOR FEEDBACK PATH OF ITS AMPLIFIER - A programmable amplifier circuit includes an amplifier, an input capacitor coupled to an input of the amplifier, a feedback capacitor coupled to the input of the amplifier and an output of the amplifier, and a switched-capacitor resistor circuit. The switched-capacitor resistor circuit is coupled between the input of the amplifier and the output of the amplifier, and configured for simulating a feedback resistor element to provide a resistance for a feedback path of the amplifier by using at least one capacitor placed between the input of the amplifier and the output of the amplifier to avoid leakage current(s) flowing back to an input of the amplifier. | 2017-10-05 |
20170288618 | DIGITALLY-CONTROLLED TRANSIMPEDANCE AMPLIFIER (TIA) CIRCUIT AND METHODS - A digitally-controlled transimpedance amplifier (TIA) circuit is provided in which a plurality of feedback loops are digitally controlled, including, but not limited to, the DC offset cancellation loop, the variable gain control loop, and the TIA feedback impedance adjustment loop. The digitally-controlled TIA circuit includes digital loop-control circuitry that consumes less area on the TIA IC chip than the analog circuitry traditionally used to perform the feedback loop control in the analog domain. In addition, because digital logic continues to shrink as IC processes continue to evolve, the size of the IC chip packages will further decrease over time, leading to a smaller footprint in systems in which they are employed. The digital loop control circuitry is also capable of independently varying the gains of multiple gain stages of the variable gain control circuit to provide better control over the gain stages and better overall performance of the TIA circuit. | 2017-10-05 |
20170288619 | DC OFFSET COMPENSATION - An apparatus and method for DC offset compensation. An amplifier receives an input signal (A | 2017-10-05 |
20170288620 | CURRENT REUSE FIELD EFFECT TRANSISTOR AMPLIFIER - A current reuse FET amplifier according to the present invention provides an effect of reducing a variation of bias current of the amplifier, with gate voltage or a resistor for self-biasing of an FET of the amplifier changing in accordance with a process variation of saturation current Idss of the FET. | 2017-10-05 |
20170288621 | SEMICONDUCTOR DEVICE, SEMICONDUCTOR SYSTEM, AND CONTROL METHOD OF SEMICONDUCTOR DEVICE - A semiconductor device includes a differential amplification circuit that outputs differential output signals Vo | 2017-10-05 |
20170288622 | COMMON MODE GAIN TRIMMING FOR AMPLIFIER - An electrical device (e.g., an integrated circuit) includes an amplifier, a configurable common mode gain trim circuit, and a memory. The configurable common mode gain trim circuit is coupled to the amplifier. The memory is configured to include trim data that is usable during an initialization process for the electrical device to configure the impedance matching circuit. | 2017-10-05 |
20170288623 | CURRENT REUSE AMPLIFIER - A two-stage amplifier of a type of the current re-use configuration is disclosed. The amplifier includes first to third transistors, where the first transistor constitute the first stage, while, the latter two transistors constitute the second stance. The first to third transistors are connected in series between a power supply and ground such that a bias current supplied to the third transistor flows in the second and first transistors. The first transistor in the source thereof is grounded in the DC mode. The second transistor is grounded in the AC mode but floated in the DC mode. The third transistor that outputs an amplified signal is connected in parallel in the AC mode but in series in the DC mode with respect to the second transistor. | 2017-10-05 |
20170288624 | AUTOMATIC VOLUME CONTROL FOR COMBINED GAME AND CHAT AUDIO - A system comprising audio processing circuitry is provided. The audio processing circuitry is operable to receive combined-game-and-chat audio signals. The audio processing circuitry is operable to process the combined-game-and-chat audio signals to detect strength of a chat component of the combined-game-and-chat audio signals and strength of a game component of the combined-game-and-chat audio signals. The audio processing circuitry is operable to automatically control a volume setting based on one or both of: the detected strength of the chat component, and the detected strength of the game component. The combined-game-and-chat audio signals may comprise a left channel signal and a right channel signal. The processing of the combined-game-and-chat audio signals may comprise measuring strength of a vocal-band signal component that is common to the left channel signal and the right channel signal. | 2017-10-05 |
20170288625 | Audio System Equalizing - Processes and devices for equalizing an audio system that is adapted to use a loudspeaker to transduce test audio signals into test sounds. The processes and devices can involve the use of infrared signals to convey information in one or both directions between the audio system and a portable computer device that captures test sounds, calculates audio parameters that can be used in the equalization process, and transmits these audio parameters back to the audio system for its use in equalizing audio signals that are played by the audio system. | 2017-10-05 |
20170288626 | COMMON MODE FILTER - Disclosed herein is a common mode filter that includes first and second terminal electrodes provided on the first flange part, third and fourth terminal electrodes provided on the second flange part, a first wire wound around the winding core part and having one end connected to the first terminal electrode and other end connected to the third terminal electrode, and a second wire wound around the winding core part and having one end connected to the second terminal electrode and other end connected to the fourth terminal electrode. The winding core part includes a first winding region, a second winding region, and a third winding region positioned between the first and second winding regions in the axial direction. The first and second wires are bifilar-wound in the first and second winding regions and layer-wound in the third winding region. | 2017-10-05 |
20170288627 | ELECTRONIC PACKAGE INCLUDING CAVITY FORMED BY REMOVAL OF SACRIFICIAL MATERIAL FROM WITHIN A CAP - A method of fabricating an electronic component includes forming a functional unit on a main surface of a substrate, forming a sacrificial layer covering the functional unit on the main surface, forming a cap layer covering the sacrificial layer, the cap layer forming a periphery enclosing the cavity on the main surface, forming holes through the cap layer, forming a cavity by removing the sacrificial layer using a wet etching process through the holes, the holes including a peripheral hole communicating an inside of the cavity with an outside of the cavity along the main surface, and forming a first resin layer covering the cap layer and the main surface. | 2017-10-05 |
20170288628 | ACOUSTIC RESONATOR INCLUDING MONOLITHIC PIEZOELECTRIC LAYER HAVING OPPOSITE POLARITIES - A method is provided for forming a piezoelectric layer during a corresponding deposition sequence. The method includes sputtering aluminum nitride onto a sputtering substrate inside a reaction chamber having a gas atmosphere, the gas atmosphere initially including nitrogen gas and an inert gas, causing growth of the piezoelectric layer with a polarity in a negative direction. The method further includes adding a predetermined amount of oxygen containing gas to the gas atmosphere over a predetermined period of time, while continuing the sputtering of the aluminum nitride onto the sputtering substrate during a remainder of the deposition sequence, such that the piezoelectric layer is monolithic. The predetermined amount of oxygen containing gas causes the polarity of the aluminum nitride piezoelectric layer to invert from the negative direction to a positive direction, opposite the negative direction. | 2017-10-05 |
20170288629 | SOLIDLY MOUNTED LAYER THIN FILM DEVICE WITH GROUNDING LAYER - An apparatus includes a substrate, a thin film piezoelectric layer, a transducer, and a low resistivity layer. The thin film piezoelectric layer is over the substrate, the transducer includes a number of electrodes in contact with the thin film piezoelectric layer and configured to transduce an acoustic wave in the thin film piezoelectric layer. The low resistivity layer is between at least a portion of the substrate and the thin film piezoelectric layer. By providing the low resistivity layer between at least a portion of the substrate and the thin film piezoelectric layer, a spurious response of the apparatus may be significantly reduced, thereby improving the performance thereof. | 2017-10-05 |
20170288630 | LOW-PASS FILTER - In one aspect, the present disclosure provides a surface-mounted low-pass filter, including: a mounting surface having an input terminal electrode, an output terminal electrode, and a ground terminal electrode; a parallel resonant circuit between the input terminal electrode and the output terminal electrode; and a series resonant circuit between one end of the parallel resonant circuit and the ground terminal electrode, wherein the series resonant circuit has a first capacitor and a first inductor, and wherein, when the low-pass filter is viewed from above in a direction perpendicular to the mounting surface with the mounting surface on the bottom, the first inductor of the series resonant circuit is above the first capacitor. | 2017-10-05 |