Entries |
Document | Title | Date |
20080247202 | METHOD AND APPARATUS FOR SENSING MULTIPLE VOLTAGE VALUES FROM A SINGLE TERMINAL OF A POWER CONVERTER CONTROLLER - An example controller for a power converter according to aspects of the present invention includes a switching control that switches a power switch to regulate an output of a power converter. The controller also includes a sensor coupled to receive a signal from a single terminal of the controller. The signal from the single terminal is representative of a line input voltage of the power converter during at least a portion of an on time of the power switch. The signal from the single terminal is also representative of an output voltage of the power converter during at least a portion of an off time of the power switch. The switching control is responsive to the sensor. | 10-09-2008 |
20080316780 | Limitation of voltage pulse - Method and arrangement for controlling the output voltage pulses of a PWM frequency converter, in which PWM frequency converter is a network bridge ( | 12-25-2008 |
20090003022 | Non-Contact Power Supply System - A non-contact power supply system is provided in which current phases of induction lines are matched. According to the output current of a power supply unit ( | 01-01-2009 |
20090046487 | HIGH EFFICIENCY DC-DC CONVERTER USING PULSE SKIPPING MODULATION WITH PROGRAMMABLE BURST DURATION - A DC-DC converter and method of improving the efficiency of a DC-DC converter at low load current levels using pulse skipping modulation (PSM) with controllable burst duration NT | 02-19-2009 |
20090168474 | POWER CONVERTING DEVICE AND METHOD FOR CONTROLLING THE SAME - In a system to which a fluctuating load is connected, compensating for fluctuation in voltage harmonics at the load connecting point and fluctuation in system current harmonics has been difficult for a power converting device connected in parallel with the load. To resolve the problem, a power converting device connected in parallel with a fluctuating load includes: a Fourier series expansion unit which executes Fourier series expansion to load current by use of a reference sine wave in sync with a system and thereby outputs Fourier coefficients; and a fundamental component calculating unit which calculates a positive phase active fundamental component of the load current from the Fourier coefficients. A current instruction of the power converting device is generated by subtracting the fundamental current from the load current. With the current instruction, the fluctuations in system current harmonics and in voltage harmonics at the connecting point can be compensated for. | 07-02-2009 |
20090190381 | METHOD OF MODULATING POWER SUPPLY CONVERSION EFFICIENCY CURVE - The present invention discloses a method of modulating a power supply conversion curve. The method obtains an input power and an output power of the power supply device for a conversion efficiency curve, and obtains the best efficiency value in the conversion efficiency curve, and then obtains a total load using power outputted by the power supply device, in order to adjust the best efficiency value, such that the best efficiency value is directly proportional to the total load using power, and the power supply device is operated at the best conversion efficiency to achieve the energy saving effect. | 07-30-2009 |
20090196081 | SYSTEM AND METHOD FOR PROVIDING SWITCHING TO POWER REGULATORS - System and method for providing switching to power regulators. According to an embodiment, the present invention provides system for providing switching. The system includes a first voltage supply that is configured to provide a first voltage. The system also includes a second voltage supply that is configured to provide a second voltage. The second voltage being independent from the first voltage. The system additionally includes a controller component that is electrically coupled to the first voltage supply. For example, the controller component being configured to receive at least a first input signal and to provide at least a first output signal. Additionally, the system includes a gate driver component that is electrically coupled to the second voltage supply. The gate driver component is configured to receive at least the first output signal and generated a second output signal in response to at least the second voltage and the first output signal. | 08-06-2009 |
20090268491 | POWER CONVERTER WITH RETRACTABLE CABLE SYSTEM - A modular power converter including a first housing enclosing a converter circuit, and a selectively detachable second housing enclosing a retracting power cable. In a first orientation, the detachable second housing is secured to the first housing to form a unitary housing. In a second orientation, the second housing is detached from the first housing such that a first end of the extended power cable may tether to the first housing output a selectable distance therefrom. The cable also has a second end extendable from the second housing a predetermined distance. This modular power converter forms a single compact device when the power cable is not extended from the second housing. | 10-29-2009 |
20090316453 | CONVERTER CONTROL DEVICE - A converter control device includes a converter device formed by three converter circuits connected together in parallel between a secondary battery as a first power source and a fuel cell as a second power source. A control unit includes: a PID control module for controlling the converter device by PID control and executing a desired voltage conversion; a drive phase quantity changing module for changing the number of drive phases of the converter device in accordance with the passing power of the converter device; and an integration term correction function switching module which switches the PID control integration term correction function when changing the number of drive phases. | 12-24-2009 |
20100080025 | POWER SUPPLY WITH ZERO POWER CONSUMPTION CAPABILITY - Power supply devices are provided that can include power regulating circuitry for regulating (e.g., transforming or converting) electric power to be passed to an electronic device. A power supply device can also include control circuitry coupled with the regulating circuitry. The control circuitry can determine when the power supply device is coupled with an electronic device. The control circuitry can control the operation of the regulating circuitry based on whether or not the power supply device is coupled with the electronic device. | 04-01-2010 |
20100246220 | METHOD AND APPARATUS FOR MULTI-STAGE POWER SUPPLIES - A power supply having an specified hold-up time to take a input voltage and convert it to an output voltage, comprising: a first power stage to receive the input voltage; a second power stage to generate the output voltage and an output current; an intermediate charge storage device coupled between the first and second power conversion stages providing an intermediate output voltage in response to the input voltage; and a controller that controls the intermediate output voltage according to a voltage function that is associated with the hold-up time. | 09-30-2010 |
20100246221 | DYNAMIC PHASE MANAGER FOR MULTI-PHASE SWITCHING REGULATORS - An apparatus is provided. The apparatus comprises a current sensor, an error amplifier, a comparator, an analog-to-digital converter (ADC), control logic, and drivers. The error amplifier is adapted to receive a reference voltage and a feedback voltage, and the comparator has a first input terminal and a second input terminal, where the sum of at least a first portion of a common mode voltage and an output of the error amplifier is input into the first input terminal, and wherein the sum of at least a second portion of the common mode voltage and an output of the current sensor is input into the second input terminal. The ADC receives the sum of the second portion of the common mode voltage and the output of the current senor. Additionally, the ADC has a plurality of internal threshold voltages that are between the common mode voltage and an overcurrent limit adjustment voltage. The control logic receives an output from the comparator and the ADC, and the drivers are each adapted to receive at least one control signal from the control logic so as to provide drive signals to a converter. | 09-30-2010 |
20110019445 | METHOD AND APPARATUS FOR CONTROLLING POWER CONVERTER OUTPUT CHARACTERISTICS - A power converter includes a primary winding for providing a primary current, a secondary winding for providing an output current and an output voltage, and a current sense node for receiving a current sense signal related to the primary current. The power converter also includes a control circuit configured to limit the current sense signal to be lower than or equal to a predetermined reference peak current. Moreover, the power converter includes a first circuit configured to modify the current sense signal using a first signal related to the output voltage to cause an variation in the output current. | 01-27-2011 |
20110134668 | Maximum Power Point Tracking Converter of New and Renewable Energy Storage System and Maximum Power Point Tracking Method - A maximum power point tracking (MPPT) converter of a new and renewable energy storage system for tracking and extracting a maximum power from a new and renewable energy to provide the maximum power to a DC link. The MPPT converter includes an MPPT controller changing a controlled variable for maximum power point extraction in proportion to a current slope of the new and renewable energy, and an MPPT extractor extracting a maximum power from the new and renewable energy and converting the extracted maximum power in response to a control of the MPPT controller. The controlled variable variation is set to a large value if the current slope is out of a predetermined current slope range, and the controlled variable variation is set to a small value if the current slope is within the predetermined current slope range. | 06-09-2011 |
20110157936 | Using output drop detection pulses to achieve fast transient response from a low-power mode - In a first aspect, in a Primary Side Regulation (PSR) power supply, some primary current pulses are used to forward bias an output diode such that an auxiliary winding voltage can be properly sampled after each pulse. The samples are used to regulate the power supply output voltage (VOUT). Other primary current pulses, however, are of a smaller peak amplitude. These pulses are not used for VOUT regulation, but rather are used to determine whether the VOUT has dropped. In a second aspect, a transient current detector circuit within the PSR controller integrated circuit detects whether an optocoupler current has dropped in a predetermined way. If the TRS current detector detects that the optocoupler current has dropped, then the power supply stops operating in a sleep mode and is made to operate in another higher power operating mode in which the power supply switches. | 06-30-2011 |
20110205770 | POWER SOURCE CONTROLLING SEMICONDUCTOR INTEGRATED CIRCUIT AND INSULATED DIRECT-CURRENT POWER SOURCE DEVICE - A power source controlling IC controlling a current flown through the primary side winding of a transformer is provided with an external terminal to which a detected voltage from the secondary side is fed back through a photocoupler; a control circuit generating and outputting a control signal of a switching element controlling the current according to an input voltage; a voltage generating circuit generating an internal reference voltage based on the input voltage; a pull-up section connected to the terminal to pull up the potential of the terminal to the internal reference voltage to give a bias voltage to a light receiving element of the photocoupler; and a voltage comparing circuit comparing the voltage of the external terminal and a predetermined reference voltage, wherein the control circuit stops outputting the control signal based on the output of the first voltage comparing circuit when detecting an abnormality. | 08-25-2011 |
20110280051 | CONTROLLER FOR A SWITCHED MODE POWER SUPPLY (SMPS), A SMPS, AND A METHOD OF CONTROLLING A SMPS - According to an example embodiment, a controller for a Switched Mode Power Supply having opto-coupler-based feedback from secondary to primary side, is disclosed, in which the optocoupler current varies inversely with the output voltage over a voltage control range. The converter is thereby enabled to consume less power than do conventional converters, when in lower-power standby mode. Also disclosed are low-voltage startup and over-voltage protection arrangements combined with such a controller. Corresponding methods are also disclosed. | 11-17-2011 |
20120002451 | METHOD AND APPARATUS FOR INTEGRATED CABLE DROP COMPENSATION OF A POWER CONVERTER - An integrated circuit controller for a power converter to be coupled to a distribution network is disclosed. An example integrated circuit controller according to aspects of the present invention includes a switching control circuit that outputs a drive signal to control switching of a switch to regulate an output of the power converter. The integrated circuit controller also includes a cable drop compensator that outputs a compensated reference voltage signal to the switching control circuit in response to a switching signal. The switching signal is responsive to the drive signal. The compensated reference voltage signal is representative of a voltage value that is responsive to a distribution voltage across the distribution network and a load voltage across a load to be coupled to the distribution network. The switching of the switch is responsive to the compensated reference voltage signal and a feedback signal. | 01-05-2012 |
20120014148 | ADAPTIVE ON-TIME CONTROL FOR POWER FACTOR CORRECTION STAGE LIGHT LOAD EFFICIENCY - Light load efficiency of a power factor correction circuit is improved by adaptive on-time control and providing for selection between a continuous conduction mode and a discontinuous conduction mode wherein the discontinuous conduction mode increases time between switching pulses controlling connection of a cyclically varying voltage to a filter/inductor that delivers a desired DC voltage and thus can greatly reduce the switching frequency at light loads where switching frequency related losses dominate efficiency. The mode for controlling switching is preferably selected for each switching pulse within a half cycle of the cyclically varying input voltage. A multi-phase embodiment allows cancellation of EMI noise at harmonics of the switching frequency and adaptive change of phase angle allows for cancellation of dominant higher order harmonics as switching frequency is reduced. | 01-19-2012 |
20120026765 | CONTROL DEVICE OF A SWITCHING POWER SUPPLY - A control device controls a switching converter having an input alternating supply voltage and a regulated direct voltage at the output terminal. The converter comprises a switch and the control device is adapted to control the on time period and the off time period of said switch for each cycle. The control device has a first input signal representative of the current flowing through at least one element of the converter and comprises a zero crossing detector adapted to detect at least one pair of first and second zero crossings of said first signal for each switching cycle, said second zero crossing immediately following the first zero crossing and occurring in opposite direction with respect to the first zero crossing. The control device comprises a synchronizer adapted to synchronize the start of the on period with each second zero crossing of said first signal. | 02-02-2012 |
20120057381 | ELECTRIC-POWER CONVERSION APPARATUS - There is provided an electric-power conversion apparatus including a chopper circuit; a current sense resistor that detects the output current of the chopper circuit; a differential detection circuit that outputs, as a differential detection signal (vo), the electric potential difference across the current sense resistor; and a calculation means that corrects the differential detection signal (vo) from the differential detection circuit by use of a control signal (D | 03-08-2012 |
20120069613 | TRANSFER CONTROL DEVICE - There is provided a control device which controls a transformer in accordance with a total loss imposed on a load driving system including the transformer and a load. In a control device of a transformer that boosts or drops an output voltage of a DC power supply and provides the output voltage to a load, the control device includes: a switching controller which performs switching control of the transformer; a load power deriving unit which derives load power; a transformer loss decrease amount deriving unit which derives a decrease amount of loss generated in the transformer, based on the load power derived by the load power deriving unit and a transformer ratio of the transformer, when the switching controller performs intermittent control of the transformer; a load loss increase amount deriving unit which derives an increase amount of loss generated in the load when the switching controller performs the intermittent control of the transformer; and a control command unit which instructs the switching controller to perform the intermittent control of the transformer when the decrease amount of transformer loss derived by the transformer loss decrease amount deriving unit is larger than the increase amount of load loss derived by the load loss increase amount deriving unit. | 03-22-2012 |
20120120692 | APPARATUS AND METHOD FOR SWITCH MODE POWER SUPPLY - A switch mode power supply (SMPS) is capable of reducing standby power consumption, and includes a power factor capacitor (PFC) bulk capacitor which supplies power in a standby mode to constant loads by repeatedly charging and discharging a voltage, a PFC controller which controls the voltage to be charged in the PFC bulk capacitor, a first resistor and a second resistor which divide the voltage of the PFC bulk capacitor and output a reference voltage, and a control unit which controls the charging and discharging of the voltage of the PFC bulk capacitor in accordance with the reference voltage. | 05-17-2012 |
20120250378 | Burst-Mode Operation of a Switching Converter - Disclosed is a method for driving a switching element in a switching converter in the burst mode and a controller for a switch in switching converter. | 10-04-2012 |
20120250379 | OTA Feedback Mechanism for Fixed Feedback Voltage Regulators - An operational transconductance amplifier used in conjunction with a multiple chip voltage feedback technique allows multiple strings of LEDs and current sinks to be efficiently powered by a simple feedback oriented voltage regulator within an appliance. A connected series of differential amplifiers or multiplexors are used to monitor the voltages between the connected LEDs and the current sinks, in order to progressively determine the lowest voltage. The operational transconductance amplifier compares this voltage to a reference voltage and injects or removes current from the feedback node of a voltage regulator, thereby altering the voltage present at the feedback node. This causes the voltage regulator to adjust its output, ensuring that the current sinks of the LED strings have adequate voltage with which to function, even as the LEDs have different forward voltages and the strings are asynchronously enabled and disabled. | 10-04-2012 |
20120287686 | MATRIX CONVERTER - A matrix converter according to an embodiment includes a control unit generates a highest phase-to-phase voltage among load side phase-to-phase voltages by controlling bidirectional switches that connect phases with respect to the highest phase-to-phase voltage and phases with respect to a highest phase-to-phase voltage among AC-source side phase-to-phase voltages. Moreover, the control unit generates a middle phase-to-phase voltage among the load side phase-to-phase voltages by controlling bidirectional switches that connect phases with respect to the middle phase-to-phase voltage and phases with respect to a middle phase-to-phase voltage among the AC-source side phase-to-phase voltages. | 11-15-2012 |
20120300516 | POWER SUPPLY MODULE - A power supply module including a cable and a power conversion device is provided. The cable includes a power line and a detection line and a terminal thereof connected to an electronic device, wherein the detection line transmits a first electrical numerical energy value of first electrical energy received by the electronic device through the power line. The power conversion device connects another terminal of the cable, transmits second electrical energy to the electronic device and includes an electrical energy control unit and a feedback unit. The feedback unit is used for receiving the first electrical numerical energy value and produces a feedback signal according to the first electrical numerical energy value. The electrical energy control unit receives an input electrical energy, connects the feedback unit, and regulates output electrical energy thereof and the second electrical energy having a second electrical numerical energy value with reference of the feedback signal. | 11-29-2012 |
20120314466 | CONTROL OF A MODULAR CONVERTER HAVING DISTRIBUTED ENERGY STORES WITH THE AID OF AN OBSERVER FOR THE CURRENTS AND AN ESTIMATING UNIT FOR THE INTERMEDIATE CIRCUIT ENERGY - Methods and configurations controlling a converter having controllable power semiconductors, compare actual and target state values to obtain control difference values for a control unit producing setting voltage values. Control electronics provide control signals according to setting voltage values and transmit them to power semiconductors. The control unit generates voltage values so control difference values become small. Current and converter energy controls and energy balancing are performed jointly, actual state values are calculated by an observing unit based on setting voltage values considering measured current values and actual state intermediate-circuit energy values are calculated by an estimating unit considering measured intermediate-circuit energy values of positive and negative voltage sources. The observing and estimating units model the converter so actual state current and intermediate-circuit steady-state energy values correspond to error-free current and intermediate-circuit energy values. A periodic time-variant gain controller receives error-free values. | 12-13-2012 |
20130027996 | VARIABLE FREQUENCY TIMING CIRCUIT FOR A POWER SUPPLY CONTROL CIRCUIT - An example integrated circuit controller includes a pulse width modulation (PWM) circuit and a timing circuit. The PWM circuit controls a switch to regulate an output of a power supply in response to a switch current flowing through the switch and in response to a clock signal having a switching period. The timing circuit provides the clock signal and includes a timing capacitor where the switching period of the clock signal is equal to a charging time that the timing capacitor charges to an upper reference voltage plus a discharging time that the timing capacitor discharges to a lower reference voltage. The timing circuit increases the charging time of the timing capacitor by decreasing a rate at which the timing capacitor is charged to increase the switching period of the clock signal if an on time of the switch is greater than or equal to a threshold time. | 01-31-2013 |
20130077363 | POWER SUPPLY CIRCUIT WITH TEMPERATURE COMPENSATION AND ELECTRONIC DEVICE - An exemplary power supply circuit for providing a driving voltage to a load includes a pulse width modulation (PWM) control circuit, a transformer, a voltage output terminal, and a temperature compensation circuit. The PWM control circuit is configured for outputting a pulse signal. The transformer is configured for converting a first direct current (DC) voltage to a second DC voltage according to the pulse signal. The voltage output terminal is configured for outputting the driving voltage based on the second DC voltage. The temperature compensation circuit includes a temperature sensor for detecting an operation temperature of the load and correspondingly generating a detecting signal, and a feedback signal transmitter for outputting a feedback signal based on the detecting signal. The PWM control circuit adjusts a duty ratio of the pulse signal according to the feedback signal outputted by the temperature compensation circuit. | 03-28-2013 |
20130155737 | SWITCHING MODE POWER SUPPLY USABLE IN AN IMAGE FORMING APPARATUS, AND IMAGE FORMING APPARATUS AND METHOD OF SUPPLYING POWER BY USING THE SAME - A switching mode power supply and a method of supplying power by using the same. The switching mode power supply includes a converting unit to convert an alternating current (AC) voltage input to the switching mode power supply to at least one direct current (DC) voltage by using at least one transformer, and a voltage controller to control a voltage level of an output voltage to be output to a system controller of the image forming apparatus from among the at least one DC voltage, where the system controller controls operations of the image forming apparatus. The voltage controller includes a switching unit to switch the voltage level of the output voltage from a first voltage level to a second voltage level when the image forming apparatus enters a power saving mode, where the second voltage level is lower than the first voltage level. | 06-20-2013 |
20130250636 | POWER CONVERSION CONTROL DEVICE AND POWER CONVERSION DEVICE USING THE SAME - The present application presents a power conversion control device that does not reduce electric power conversion efficiency. A mode judging section judges whether a direction of current flowing through an inductor has been reversed or not based on both an average value of current flowing through the inductor, the average value being calculated by an average current calculating section, and a difference (i.e peak current) between a maximum value and a minimum value of a current flowing through the inductor, the difference being calculated by a peak current calculating section. And then if the judging section has determined that the direction of current flowing through an inductor has been reversed, the power conversion control device makes the switching elements ON/OFF-operation corresponding to either one of a power running mode or an electric power regenerating mode. | 09-26-2013 |
20130258730 | DISTRIBUTED ENERGY RESOURCES CONTROL APPARATUS AND DISTRIBUTED ENERGY RESOURCES CONTROL METHOD - A distributed energy resources control apparatus for controlling power from a distributed energy resource in a system section separable from a power system includes a detecting unit, a receiving unit, and a control unit. The detecting unit detects a fault of the power system. The receiving unit receives a signal indicating authorization for the distributed energy resource to perform independent operation as linking with the system section, when the system section is separated from the power system. The control unit controls a power converter converting power from the distributed energy resource and outputting to the system section, based on measurement results of a voltage and a frequency of the system section, when the fault is detected and the signal is received. | 10-03-2013 |
20130258731 | POWER SUPPLY CONTROL METHOD FOR CONSTANT CURRENT CONSTANT POWER CONTROL - A digital power supply and power supply controller are presented, including a voltage control loop and a current control loop, with a controller for pulse width modulating a switching power supply according to a voltage control loop duty cycle output or a current control loop duty cycle output, in which the controller selectively presets the voltage control loop duty cycle output to a predetermined value before switching from current loop control to voltage loop control and/or inhibits increase in a voltage loop integrator value during current loop control to mitigate voltage overshoot. | 10-03-2013 |
20130279222 | CONVERTER SYSTEM AND CONTROL METHOD THEREOF - A control method of a converter system includes: sampling a current of each three-phase winding to obtain a real-time current of each converter; obtaining a mean current by averaging the real-time current of each secondary converter and the real-time current of the primary converter, and transferring the mean current to each secondary converter; obtaining the differential-mode current corresponding to each secondary converter according to the mean current and the real-time current of each secondary converter; performing a circulation current control on the mean current and the differential-mode current of each secondary converter based on a d-q coordinate system to generate a mean-current conditioning signal and a differential-mode current conditioning signal, thereby controlling each secondary converter; and obtaining a sum of the differential-mode current conditioning signal of the secondary converters and negating the sum to obtain a differential-mode current conditioning signal of the primary converter, thereby controlling the primary converter. | 10-24-2013 |
20140043876 | ACTIVE FEEDBACK CONTROL INTEGRATED CIRCUIT APPLIED TO AN ALTERNATING CURRENT/DIRECT CURRENT CONVERTER AND OPERATION METHOD THEREOF - An active feedback control integrated circuit applied to an alternating current/direct current converter includes a feedback pin, an operation unit, a control unit, and a controlled-current generation unit. The feedback pin is used for receiving a feedback current of an output feedback unit of the alternating current/direct current converter. The operation unit is used for generating an operation signal according to the feedback current. The control unit is coupled to the operation unit for generating a current control signal. The controlled-current generation unit is coupled to the control unit for generating a controlled current to the feedback pin according to the current control signal. | 02-13-2014 |
20140268950 | System and Method for Calibrating a Power Supply - In accordance with an embodiment, a method of calibrating a power supply includes coupling a reference load to an output of the power supply, setting an output voltage of the power supply to a first output voltage, measuring a current delivered to the reference load, and determining a current metric based on the measuring. The output voltage of the power supply is increased until the determined current metric crosses a first threshold, which occurs when the output of the power supply is at a second output voltage, and the power supply it set to operate at the second output voltage. | 09-18-2014 |
20140268951 | LOAD-SELECTIVE INPUT VOLTAGE SENSOR - A power converter controller includes a switch driver circuit coupled to generate a drive signal to control switching of a power switch to control a transfer of energy from an input of the power converter to an output of the power converter. An input sense circuit is coupled to receive an input sense signal representative of the input of a power converter. A sense enable circuit is coupled to receive the drive signal to generate a sense enable signal to control the input sense circuit in response to the drive signal. The sense enable signal is coupled to control the input sense circuit to sense the input sense signal continuously in response to a first load condition, and sense the input sense signal only during a fraction of a switching period of the power switch in response to a second load condition. | 09-18-2014 |
20140362622 | Controlling Operation of a Converter Having a Plurality of Semiconductor Switches for Converting High Power Electric Signals from DC to AC or from AC to DC - A method for controlling operation of a power converter is provided. The method includes determining, in a rotating dq-reference frame, a direct current error signal and a quadrature current error signal, performing a first control procedure, and performing a second control procedure. The method also includes obtaining a direct voltage control signal by subtracting a signal resulting from the second control procedure from a signal resulting from first control procedure, and obtaining a quadrature voltage control signal by adding a signal resulting from the second control procedure to a signal resulting from the first control procedure. The method includes executing a transformation from the rotating dq-reference frame to a stationary abc-reference frame based on the obtained signals, and controlling switching states of the plurality of semiconductor switches based on the signals resulting from the executed transformation from the rotating dq-reference frame to the stationary abc-reference frame. | 12-11-2014 |
20150016163 | DETECTOR AND A VOLTAGE CONVERTER - A detector for detecting an occurrence of a current strength of interest of a current of a signal to be sensed includes a magnetoresistive structure and a detection unit. The magnetoresistive structure varies a resistance depending on a magnetic field caused by the current of the signal to be sensed. Further, the detection unit generates and provides a current detection signal indicating an occurrence of the current strength of interest based on a detected magnitude of the varying resistance of the magnetoresistive structure. | 01-15-2015 |
20150070952 | ELECTRIC POWER CONVERTER AND CONTROL METHOD FOR ELECTRIC POWER CONVERTER - An electric power converter according to an embodiment includes a switching unit, a controller, and a second bidirectional switch. The switching unit includes a plurality of first bidirectional switches disposed between a DC power source and an AC load or between a DC load and an AC power source. The controller controls the switching unit to perform power conversion between DC power and AC power. When turning off the second bidirectional switch disposed on a path between one pole of the DC power source or the DC load and the switching unit, the controller turns on the first bidirectional switch connected between the other pole of the DC power source and the AC load or between the other pole of the DC load and the AC power source. | 03-12-2015 |
20150078047 | CURRENT SHAPING FOR DIMMABLE LED - Aspects of the disclosure provide a circuit that includes a detector and a controller. The detector is configured to detect a firing start by a triode for alternating current (TRIAC) in a power supply. The controller is configured to control a switch in connection with a magnetic component in response to the firing start to shape a profile of a current pulled from the power supply to satisfy a latch current requirement and a hold current requirement of the TRIAC. | 03-19-2015 |
20150372582 | CONTROL OF A THREE-PHASE VOLTAGE CONVERTER IN UNBALANCED MODE - A method of controlling current in a three-phase voltage converter operating in current imbalance mode, the method being:
| 12-24-2015 |
20160036316 | INSULATED GATE SEMICONDUCTOR DEVICE - An insulated gate semiconductor device includes an insulated gate semiconductor element, an output current detection unit, a voltage detection unit, and a heat generation amount suppression unit. The insulated gate semiconductor element on-operates by receiving a first gate voltage at a control terminal, and switches and outputs an input voltage to a load. The output current detection unit detects an output current to the load. The voltage detection unit detects an on-voltage of the insulated gate semiconductor element. The heat generation amount suppression unit sets a gate voltage to be applied to the control terminal of the insulated gate semiconductor element higher than the first gate voltage in response to the output current exceeding a rated current value and the on-voltage being lower than a first threshold voltage. | 02-04-2016 |
20160141949 | MODULAR EMBEDDED MULTI-LEVEL CONVERTER AND METHOD OF USE - A modular embedded multi-level converter (MEMC) includes a first phase portion and a second phase portion. The first phase portion includes a first switch stack operable to couple a first phase branch between a positive DC bus and a midpoint node. The second phase portion includes a second switch stack operable to couple a second phase branch between the midpoint node and a negative DC bus. A DC voltage between the positive DC bus and the negative DC bus is distributable among switching units disposed in the first phase branch and the second phase branch. A distribution of the DC voltage is controlled by regulating a DC voltage at the midpoint node to balance energy among the switching units. | 05-19-2016 |
20160197545 | CURRENT DETECTOR AND POWER CONVERSION DEVICE | 07-07-2016 |
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20170237331 | METHOD OF CONTROLLING THE SWITCHING OF A MULTILEVEL CONVERTER, A CONTROLLER FOR A MULTILEVEL CONVERTER, AND A COMPUTER PROGRAM FOR CONTROLLING A CONVERTER | 08-17-2017 |