Entries |
Document | Title | Date |
20080198638 | CONTROL ARRANGEMENT FOR A RESONANT MODE POWER CONVERTER - The switching frequency of an LLC converter is controlled by a control unit to which a feedback circuit provides a first current dependent upon the output voltage of the converter. An oscillator circuit produces a sawtooth waveform at a frequency dependent upon the first current, up to a limit equal to a second current set by a resistor. Two complementary switch control signals are produced for controlling two switches of the converter for conduction in alternate cycles of the sawtooth waveform. A timer produces dead times between the two complementary switch control signals in dependence upon the second current. Another resistor provides a current constituting a minimum value of the first current, and a charging current of a capacitor in series with a resistor modifies the first current for soft starting of the converter. | 08-21-2008 |
20080266916 | Voltage Conversion Device Capable of Enhancing Conversion Efficiency - A voltage conversion device capable of enhancing conversion efficiency includes a charge pump for generating output voltage linear to input voltage according to the input voltage, a feedback unit for generating a feedback signal according to the output voltage generated by the charge pump, and a regulating unit for outputting and adjusting the input voltage according to the feedback signal provided by the feedback unit, so as to keep the output voltage unchanged. | 10-30-2008 |
20080278981 | SWITCHING CONTROL DEVICE - The present invention reduces switching noise generated in a switching control device having a switching element such as a switching power supply in linear linkage with the state of a load of the output and without increasing the control circuit scale which is a factor of cost increase. The present invention adopts a configuration of a control circuit having an ON/OFF circuit that controls the switching element such that one or both of two specified values (upper limit and lower limit) that specify triangular waves of a triangular wave generation circuit that specifies a drive oscillating frequency of the switching element is/are changed in linear linkage with the output load state. | 11-13-2008 |
20080316779 | SYSTEM AND METHOD FOR ESTIMATING INPUT POWER FOR A POWER PROCESSING CIRCUIT - A controller for a power processing circuit and a related method of operating the same. In one embodiment, the controller includes a multiplier configured to produce a product of an input current and an input voltage of the power processing circuit. The controller also includes a low-pass filter configured to produce an input power estimate of an input power to the power processing circuit as a function of the product of the input current and the input voltage. In another embodiment, the controller is a power-factor controller and includes a voltage loop compensator configured to produce a voltage compensation signal as a function of an output voltage of the power processing circuit. The controller also includes an input power estimator configured to produce an input power estimate of an input power to the power processing circuit as a function of the voltage compensation signal. | 12-25-2008 |
20090003021 | CHOPPER TYPE DC-DC CONVERTER - A chopper type DC-DC converter includes a voltage converting circuit, a comparative wave generating circuit, a comparator group, and a switch control circuit. The voltage converting circuit converts a first voltage into a second voltage. The comparative wave generating circuit generates first and second comparative waves such that the voltage range of the first comparative wave is different from the voltage range of the second comparative wave. The comparator group generates a first comparison result signal indicating a result of comparison between the first comparative wave and an error signal indicating an error between the second voltage and target voltage and a second comparison result signal indicating a result of comparison between the second comparative wave and the error signal. The switch control circuit controls the voltage converting circuit based on the first and second comparison signals. The comparative wave generating circuit includes first and second comparative wave generating circuits. The first and second comparative wave generating circuits respectively generate the first and second comparative waves based on different source voltage groups. | 01-01-2009 |
20090052213 | POWER CONVERTER SYSTEM FOR AN AUTOMOTIVE VEHICLE AND METHOD FOR CONFIGURING SAME - A DC/DC power converter includes an electrically configurable transformer/inductor. The electrically configurable transformer/inductor receives a power plug. The power plug, depending on its configuration, configures the operation of the transformer/inductor and therefore the DC/DC power converter. The power plug may permit access to power received from the power converter. The power plug may also pass power to the power converter from a remote electrical source. | 02-26-2009 |
20090073731 | Health monitoring of power converter fans and electric motors - A method for detecting a performance degradation of a fan in a power converter is disclosed. The method includes monitoring a speed of the fan and detecting the performance degradation of the fan based, at least in part, on the monitored speed. The method further includes generating a warning signal after detecting the performance degradation of the fan. According to another aspect, a power converter includes a fan and a processor operably coupled to the fan for monitoring a speed of the fan. The processor is configured for detecting a performance degradation of the fan based, at least in part, on the monitored fan speed. The processor generates a warning signal after detecting the performance degradation of the fan. | 03-19-2009 |
20090073732 | CONTROLLER AND ASSOCIATED METHOD - A control circuit and associated method for dynamically controlling power to one or more heating elements are provided. A power source supplies power to a load through one or more current pass elements, which is controlled by a control signal. A processor determines a time period (T) having a time cycle beginning at T | 03-19-2009 |
20090080226 | Method and apparatus for maximum power point tracking in power conversion based on dual feedback loops and power ripples - A method and apparatus for converting DC input power to AC output power. The apparatus comprises a conversion module comprising an input capacitor, and a first feedback loop for determining a maximum power point (MPP) and operating the conversion module proximate the MPP. The apparatus additionally comprises a second feedback loop for determining a difference in energy storage and delivery by the input capacitor, producing an error signal indicative of the difference, and coupling the error signal to the first feedback loop to adjust at least one operating parameter of the conversion module to drive toward the MPP. | 03-26-2009 |
20090196080 | Controller for use in a resonant direct current/direct current converter - A controller is adapted for controlling a switch of a resonant direct current/direct current converter, and includes: a pulse width modulation controlling unit for detecting an output voltage of the resonant direct current/direct current converter, and for generating a pulse width modulation signal according to the output voltage detected thereby; a fixed frequency signal generating unit for generating a fixed frequency signal; and a logic synthesizing unit for synthesizing the pulse width modulation signal and the fixed frequency signal so as to generate a driving signal that is adapted to drive the switch of the resonant direct current/direct current converter. | 08-06-2009 |
20090213626 | SWITCHING CONTROLLER CAPABLE OF REDUCING ACOUSTIC NOISE FOR POWER CONVERTERS - The present invention provides a switching controller capable of reducing acoustic noise of a transformer for a power converter. The switching controller includes a switching circuit, a comparison circuit, an activation circuit, and an acoustic-noise eliminating circuit. The acoustic-noise eliminating circuit comprises a first-check circuit, a second-check circuit, a pulse-shrinking circuit, and a limit circuit. The first-check circuit receives a switching-current signal which is correlated to a switching current of the power converter and a PWM signal to generate a trigger signal. The second-check circuit receives the trigger signal to generate a control signal. When the frequency of the trigger signal falls into audio band, the control signal will be enabled to limit the switching current. Therefore, the acoustic noise of the transformer can be eliminated. | 08-27-2009 |
20090213627 | POWER SUPPLY SYSTEM WITH ADAPTIVE BLOWN FUSE DETECTION USING NEGATIVE SEQUENCE COMPONENT - Existing measurements of an input component (such as voltage or current) in a three phase power supply system are decomposed into a negative sequence component. The negative sequence component, which is significantly higher when a rectifier fuse is blown, is compared to a threshold and a determination made that a rectifier fuse is blown when the negative component exceeds the threshold. In an aspect, an adaptive algorithm is used to make the detection work better in the range of the nominal frequency of the input voltage. In an aspect, the negative sequence is determined indirectly from the existing measurements. | 08-27-2009 |
20090237966 | DIGITAL CONTROL OF POWER CONVERTERS - A system and method for controlling a power converter is presented. An embodiment comprises an analog differential circuit connected to an analog-to-digital converter, and comparing the digital error signal to at least a first threshold value. If the digital error signal is less than the first threshold value, a pulse is generated to control the power converter. Another embodiment includes multiple thresholds that may be compared against the digital error signal. | 09-24-2009 |
20090268490 | Systems and Methods For Controlling A Converter For Powering A Load - Embodiments of systems and methods for powering a load are provided. In one embodiment, a method may include providing a power converter comprising electrical circuitry comprising at least a first leg and a second leg, supplying an input power signal to the power converter, supplying at least a first gating control signal to the first leg, supplying at least a second gating control signal to the second leg, and outputting at least one output power signal to the load responsive at least in part to the first and the second gating control signals supplied. According to this example embodiment, the first gating signal and the second gating signal may each comprise a waveform comprising a notch, and the second gating control signal may be phase shifted relative to the first gating control signal. | 10-29-2009 |
20090296435 | TWO-STAGE POWER SUPPLY SYSTEM - A two-stage power supply system includes a standby power circuit, a main power circuit, a driver and, a rectifier. Moreover, the standby power circuit is used to convert a utility AC (Alternating Current; AC) into a standby AC. The main power circuit is used to convert the utility AC into a main AC. Furthermore, the driver is coupled to the main power circuit so as to control whether or not the main power circuit outputs the main AC to the rectifier. Finally, the rectifier is coupled to the standby power circuit, the main power circuit, and a load, wherein the rectifier rectifies the standby AC alone for outputting a standby DC (Direct Current; DC) to the load, or rectifies an integrated AC of the standby AC and the main AC for outputting a supply DC to the load. | 12-03-2009 |
20090296436 | APPARATUS AND METHOD OF POWER CONTROL - The present disclosure is related to a power control apparatus and a method for controlling power, more specifically to a power control apparatus that controls the risk of overcurrent in a power generator when the voltage in the power grid is low. In accordance with an embodiment of the present disclosure, a power control apparatus that controls power in a power generation system including a generator generating power can include a current comparator, which calculates an error current by using a difference between a current measured at the generator and a rated current of the generator, a controlling unit, which calculates a real power value by receiving the error current and outputs a switch driving signal corresponding to the calculated real power value, a switch, which is operated by the switch driving signal, and a resistance device, which is coupled to the switch to consume the error current. | 12-03-2009 |
20100067268 | Systems and methods for controlling energy consumption of AC-DC adapters - An AC-DC adapter is provided with an auto-sensing capability to sense when no DC load is present at the output (secondary side) of the adapter by monitoring for absence of load-indicative signals, such as power supply identifier (PSID) signals communicated to the adapter from a coupled DC-powered device. Upon detection of a no load condition, the adapter enters a no load mode during which the adapter output is turned off in order to reduce energy consumption by the adapter, and only produces short recurring voltage pulses (hiccups) at the adapter output. Upon detection of load-indicative signals communicated to the adapter from a coupled DC-powered device, the adapter output enters normal mode and provides its normal regulated power value to the adapter output for powering the coupled DC-powered device. | 03-18-2010 |
20100080024 | POWER ELECTRONIC MODULE IGBT PROTECTION METHOD AND SYSTEM - A power electronics device with an improved IGBT protection mechanism is provided. More specifically, systems and methods are provided for reducing the switching frequency of an inverter module based on the junction temperature variation of the IGBT. | 04-01-2010 |
20100110737 | MULTI-OUTPUT POWER SUPPLY - A multi-output power supply includes a standby power system and a main power system. The main power system has a transformer and a rectification output circuit connecting to the transformer to generate first output power. The power supply further has an output time series judgment circuit and a plurality of voltage regulation units connecting respectively to the standby power system and the rectification output circuit. The output time series judgment circuit has a preset reference potential compared with the potential of the first output power to determine whether to output a feedback signal. Each voltage regulation unit is connected to the output time series judgment circuit to receive the feedback signal and be activated normally and determine a regulation time spot to synchronously regulate the first output power to second output power. Thus the time difference for delivering the first output power and the second output power can be regulated. | 05-06-2010 |
20100118570 | MATRIX CONVERTER - A matrix converter includes a matrix converter main circuit, an input voltage detector group configured to detect an input voltage of an alternating current source, a gate driver configured to drive a bidirectional switch, and a controller having a pulse width modulation operation unit and a commutation operation unit. The pulse width modulation operation unit is configured to fix one output phase in a conduction state, configured to pulse-width-modulate one of remaining two output phases by using all three input phases, and configured to pulse-width-modulate the other output phase by using only two input phases of a reference input voltage and a middle input voltage. | 05-13-2010 |
20100142236 | POWER CONVERSION SYSTEM FOR ELIMINATING LOW FREQUENCY RIPPLE CURRENT AND CONTROL METHOD THEREOF - There is provided an integrated control method for eliminating a low frequency ripple in a power conversion system for a fuel cell, more particularly, a control method of a power conversion system capable of eliminating a low frequency ripple, controlling a DC link voltage, and controlling an output power and a system using the same control method. A power conversion system (PCS) that converts an output of a DC power supply received from an external power supply includes a converter that converts a voltage of the input power supply; an inverter that converts an output voltage of the converter into an AC voltage; and a converter control module that outputs a PWM signal for controlling a switch of the converter, and after receiving a power instruction value, the converter control module generates the PWM signal for controlling the converter based on the power instruction value. | 06-10-2010 |
20100149843 | PREEMPTIVE PROTECTION FOR A POWER CONVERTOR - Among many embodiments, a power conversion apparatus and a method for converting power are disclosed. The power conversion apparatus may include switching components configured to create an alternating current; a preemptive detector arranged and configured to provide, in advance of the alternating current reaching a zero-crossing, a control signal responsive to the alternating electrical current approaching the zero-crossing; and a controller configured, at least in part, to change a state of the switching components before the zero crossing, in response to the control signal. | 06-17-2010 |
20100157632 | Energy Conversion Systems With Power Control - In one embodiment, a power conversion system may include a controller to cause a power stage to control power to or from an energy storage device. In another embodiment, a power conversion system may include a push-pull stage and an energy storage device following the push-pull stage. In another embodiment, an integrated circuit may include power control circuitry to provide power control to a power converter, and a power switch coupled to the power control circuitry to operate the power converter. In another embodiment, a power conversion system may include two or more power converters having power control. | 06-24-2010 |
20100157633 | REDUNDANT CURRENT VALVE CONTROL IN A HIGH VOLTAGE POWER TRANSMISSION SYSTEM - A method and device for providing redundant control of a controllable current valve in a converter of a power transmission system. A first converter control unit sends a first valve control signal. A first active/standby indicator is associated with the first converter. A second converter control unit sends a second valve control signal. A second active/standby indicator is associated with the second converter control unit. The device also includes a valve control unit. An active/standby indicator indicates if a corresponding converter control unit is active or standby. Only one indicator indicates an active unit at a given point in time. The valve control unit receives the active/standby indicators and valve control signals, selects a valve control signal to be applied if the corresponding active/standby indicator indicates an active converter control unit and controls the current valve using the selected valve control signal. | 06-24-2010 |
20100202170 | Soft-Burst Circuit For Switched-Mode Power Supplies - A switched-mode power supply includes a soft-burst circuit to minimize or prevent distracting audible noise. The power supply includes a control circuit for controlling switching of an output transistor to deliver a regulated output voltage to a load. The control circuit adjusts the operating frequency of the power supply based on a control signal. The soft-burst circuit discharges a storage device to minimize or prevent audible noise when the control signal reaches a particular level. | 08-12-2010 |
20100246219 | Applying Charge Pump To Realize Frequency Jitter For Switched Mode Power Controller - Method and apparatus for adding jitter to an oscillator for reducing EMI are disclosed An oscillator circuit includes an oscillator configured to generate a first clock having a first frequency and a frequency jitter circuit including a charge pump configured to charge and discharge first and second capacitors repeatedly for obtaining a time-varying voltage having a second frequency. The time-varying voltage is coupled to the oscillator to vary the first frequency within a frequency range. The charge pump includes a first switch for coupling the first capacitor to a voltage source and a second switch for coupling the first capacitor to the second capacitor. A charge transfer between the first and second capacitors is configured to provide the time-varying voltage. | 09-30-2010 |
20100290259 | VOLTAGE STABILIZING MODULE FOR BICYCLE GENERATOR - A voltage stabilizing module for bicycle generator includes a voltage input, a rectifier circuit electrically connected to the voltage input, a detective switch electrically connected to the rectifier circuit, a stabilizing integrated circuit selectively electrically connected to the detective switch, a filter circuit electrically connected to the stabilizing integrated circuit, and a voltage output electrically connected to the filter circuit. | 11-18-2010 |
20110026283 | POWER SYSTEM INTERCONNECTION SYSTEM AND POWER CONVERTING METHOD - A power system interconnection system includes: a voltage detecting section configured to detect voltage values of a power system line to generate detection voltage values; and a PWM signal generating section configured to generate a PWM signal such that an output voltage follows the detection voltage values. A voltage converting circuit is configured to generate and supply the output voltage to the power system line by performing a pulse-width-modulation control on the power supplied from a power supply based on the PWM signal. | 02-03-2011 |
20110038188 | Continuous Conduction Mode Power Factor Correction Circuit With Reduced Sensing Requirements - A power supply circuit includes continuous conduction mode power factor correction (PFC). The PFC may be performed by generating a carrier signal voltage at a beginning of a switching cycle of the power supply, generating a sampling voltage indicative of drain current of a drive transistor, and detecting when the carrier signal voltage has decreased to the same level as the sampling voltage at an intersection time. The ON time of the drive transistor may be set to twice the intersection time. | 02-17-2011 |
20110058398 | POWER CONVERTER SYSTEM AND METHOD - An electrical power conversion system and method for connecting an electrical power source to an electrical grid, the system comprises an input module for generating a high voltage DC power signal from a variable low DC power signal of the electrical power source based on a voltage command. The system further comprises an output module connected to the high voltage DC power signal for generating an AC power signal with a peak voltage based on said voltage command according to a frequency command and a phase command. The system further comprises an electrical grid interface for selectively connecting said AC power signal to the electrical grid and to measure an electrical grid waveform for generating an electrical grid measurement including voltage, phase and frequency. The system also comprises a controller for determining an available power at said low DC power signal to allow said input module to supply said high voltage DC power signal, and also for setting said phase command, said voltage command and said frequency command based on said electrical grid measurement. | 03-10-2011 |
20110075456 | POWER CONVERSION CONTROL SYSTEM - A power distribution system comprises a power conversion module for performing power conversion between a DC voltage at a DC side and an AC power at an AC side, and a conversion control system. The AC side of the power conversion module is electrically coupled to a grid. The conversion control system includes a phase-locked-loop circuit for receiving a multi-phase reference signal of a grid voltage and for generating a synchronized signal, a regulator for receiving reference commands, a two-phase grid feedback signal, and the synchronized signal and for generating a control signal for the power conversion module, and a phase compensation circuit for receiving the synchronized signal and the multi-phase reference signal of the grid voltage, for obtaining a phase displacement signal, and for generating a phase compensation signal for compensating the reference commands or for compensating the synchronized signal when the phase displacement signal exceeds a threshold value. | 03-31-2011 |
20110075457 | Capacitor startup apparatus and method with failsafe short circuit protection - Electronic circuits couple energy storage devices, such as double layer capacitors or rechargeable battery cells, to a power supply output, thereby improving noise suppression and extending ride-through capability of the power supply. In a typical circuit, an energy storage device is coupled in series with a switch that controls the charging current into the energy storage device. The switch is controlled by a comparator that receives a signal related to the voltage level of the power supply. In some embodiments, the comparator also receives a feedback signal related to a charging current flowing into the energy storage device. The circuit is configured so that the switch limits the charging current to a predetermined current level, or does not allow the charging current to flow until the output voltage of the power supply reaches a predetermined voltage level. | 03-31-2011 |
20110090723 | CONTACTLESS POWER RECEIVER AND METHOD OF OPERATION - A contactless power receiver is provided with a dynamically tuned pick up coil. The power transfer capacity of this power receiver is dynamically tuned using semiconductor devices that are operated in linear mode over part of their operation. The semiconductor devices are driven by a controller that is configured to implement a range of control strategies depending on system requirements. The semiconductor device may be used by itself or in conjunction with reactive elements to dynamically tune the pick up coil. In some implementations the contactless power receiver maybe configured to work with a consumer electronic or a wireless sensor device. The contactless power receiver can be integrated with the energy storage component of the device to provide a retrofit solution for existing products. The device can then be placed in vicinity of a planar magnetic field generated by a charging pad. | 04-21-2011 |
20110103110 | Method of operating an inverter and inverter control arrangement - A method of operating an inverter for converting a DC power into AC power by use of a pulse width modulation switching scheme is provided is disclosed. The inverter is controlled by use of the pulse width modulation switching scheme to provide an alternating current based on a current demand signal defining an alternating current provided by the inverter. An upper current threshold and a lower current threshold are provided. An instantaneous value of the alternating current is measured. When the instantaneous value of the alternating current overshoots the upper current threshold or undershoots the lower current threshold, the pulse width modulation switching scheme is replaced by an amended switching scheme which controls the instantaneous value of the alternating current to be between the upper current threshold and the lower current threshold. The upper current threshold and the lower current threshold oscillate with at least one alternating phase. | 05-05-2011 |
20110110130 | INTERLEAVED-PWM POWER MODULE SYSTEM AND METHOD FOR OPERATING THE SAME - An interleaved-PWM power module system and method for operating the same are disclosed. The power system includes at least two power modules, each of which has a specific ID number. The power module with an extreme value of the specific ID number is set as a master power module and the remaining power modules are set as slave power modules. The master power module sends the sync signal to all of the slave power modules. Each of the slave power modules performs a phase-locking operation with reference to a specific phase offset to generate a frequency switching signal, where the frequency switching signal is synchronized with the sum of the sync signal and the phase offset for each slave power module. The power module outputs the frequency switching signal for PWM signal generation. | 05-12-2011 |
20110122665 | VOLTAGE APPLICATION TIME PERIOD MEASURING CIRCUIT AND POWER SUPPLY APPARATUS INCLUDING THE SAME - Provided are a voltage application time period measuring circuit which does not require a battery, and a power supply apparatus including the voltage application time period measuring circuit. Each of a voltage application time period memory ( | 05-26-2011 |
20110149621 | Method and device for optimizing a space vector pulse width modulation - In a method for optimizing a space vector pulse width modulation, a voltage is connected to a load, by combining discrete switching states of a plurality of switches to control the load, the load being switched to zero potential by two of the switching states. In the case the maximum degree of control is increased, during a pulse width modulation period, at least one of the switching states, that switches to zero potential, is omitted. | 06-23-2011 |
20110194320 | Power Device - A power device includes a power supply module, a first electrical isolation unit, a second electrical isolation unit, a feedback control unit, and a comparing unit. The power supply module includes a feedback compensating terminal and an output terminal, the feedback compensating terminal provides a related voltage of output power, and the output terminal provides an output voltage. When the related voltage of output power is smaller than the predetermined voltage, the comparing unit controls the first electrical isolation unit to change operation of the feedback control unit and the second electrical isolation unit, to allow the power supply module to adjust the output voltage. | 08-11-2011 |
20110211375 | POWER FACTOR CORRECTION CONVERTER - A power factor correction converter includes an output voltage error amplifier which functions as a proportioning device in a low-frequency range in order to stabilize the output voltage by feedback control and obtains a reference current amplitude value vm by multiplying an error ev between a desired output voltage value Vref and a detected output voltage value vo by a predetermined proportionality factor. A factor element multiplies the reference current amplitude value by a predetermined factor and adds the resulting value to a reference value to obtain a desired output voltage value. The factor element functions as a low-pass filter by changing the desired output voltage value Vref in accordance with the reference current amplitude value vm in a low-frequency range and reducing the factor value in a high-frequency range. | 09-01-2011 |
20110267855 | MODULAR PHOTOVOLTAIC POWER SUPPLY ASSEMBLY - An apparatus, device, and system for generating an amount of output power in response to a direct current (DC) power input includes a configurable power supply, which may be electrically coupled to the DC power input. The configurable power supply is selectively configurable between multiple circuit topologies to generate various DC power outputs and/or and AC power output. The system may also include one or more DC power electronic accessories, such as DC-to-DC power converters, and/or one or more AC power electronic accessories such as DC-to-AC power converters. The power electronic accessories are couplable to the configurable power supply to receive the corresponding DC or AC power output of the configurable power supply. | 11-03-2011 |
20110273917 | INTELLIGENT PHOTOVOLTAIC INTERFACE AND SYSTEM - The present invention relates to a photo-voltaic interface for integration of photo-voltaic modules in a power system. The photo-voltaic interface includes a power conversion system adapted to convert power to a pre-determined voltage and current type, a control and monitoring system adapted to allow monitoring and control of power flow to optimize grid operation, and a communications system adapted to allow remote monitoring of the photo-voltaic interface to detect defective components. | 11-10-2011 |
20110280050 | POWER CONVERTER - The invention refers to a power converter and to a method for power conversion. The power converter includes a primary winding adapted to receive a primary alternating voltage. The converter further includes a first secondary circuit magnetically coupled to the primary winding, the first secondary circuit generating a first secondary output signal, the power converter further includes a second secondary circuit magnetically coupled to the primary winding. The power converter includes a post regulator adapted to be coupled to the second secondary circuit, the post regulator having a switch which is opened at every zero-crossing of the first output signal. | 11-17-2011 |
20110317457 | ELECTRONIC EQUIPMENT AND IMAGE FORMING APPARATUS - Electronic equipment includes: a first substrate; a second substrate; and a harness that connects the first substrate and the second substrate with other. The first substrate includes: a conversion unit that outputs converted power converted from supply of power supplied by a power source, and a control unit that outputs a control signal used to control output of the supply of power to the second substrate. The second substrate includes: a semiconductor circuit operated by the supply of power and the converted power, and a connector that outputs the control signal to the power source. The harness includes a signal line of the control signal and a power line through which the converted power is supplied from the first substrate to the second substrate. | 12-29-2011 |
20120020127 | POWER SYSTEM WITH POWER SAVING FUNCTION - A power system includes an electronic device having a host and a state generator and an adaptor. The host is capable of presenting a plurality of states and generating a plurality of state signals corresponding to the states, and the state generator is electrically connected to the host, receives the state signals and generates a control signal accordingly. The adaptor is connected to an AC voltage and has a state receiving terminal to receive the control signal. The adaptor is capable of generating a DC voltage to the electronic device according to the control signal. | 01-26-2012 |
20120044727 | METHOD AND CIRCUIT ARRANGEMENT FOR SUPPLYING A MULTIPHASE ELECTRICAL NETWORK - In a method for supplying a multiphase electric network ( | 02-23-2012 |
20120147637 | Methods, Systems, and Software for Controlling a Power Converter During Low (Zero)-Voltage Ride-Through Conditions - A power converter control system having a phase tracker that is designed and configured to estimate the phase of the voltage on the power network that will be on the network when network recovers from a fault on the network. Such a power converter control system allows a power-network-connected power source to ride-through a fault event and continue supplying power thereto at the designed phase and frequency. In one embodiment, the phase tracker provides this estimate by having a response time slow enough that the voltage drop or sag caused by the fault substantially does not affect the control system. In another embodiment, the phase detector is designed and configured to freeze the frequency of its output upon detection of a fault event on the power network. | 06-14-2012 |
20120201061 | EFFICIENCY OPTIMIZED POWER CONVERTER WITH DUAL VOLTAGE POWER FACTOR CORRECTION - A dual voltage power conversion system with power factor correction (PFC) having a capabilities to adjust a PFC setpoint according to operating conditions. The input signaling levels, for example, may be monitored and used to control adjustments to the PFC setpoint in order to allow the PFC setpoint to dynamically change with any input variation. The PFC setpoint may be adjusted to a PFC setpoint resulting in maximum efficiency. | 08-09-2012 |
20120218791 | Methods, Systems, and Software for Controlling a Power Converter During Low (Zero)-Voltage Ride-Through Conditions - A power converter control system having a phase tracker that is designed and configured to estimate the phase of the voltage on the power network that will be on the network when network recovers from a fault on the network. Such a power converter control system allows a power-network-connected power source to ride-through a fault event and continue supplying power thereto at the designed phase and frequency. In one embodiment, the phase tracker provides this estimate by having a response time slow enough that the voltage drop or sag caused by the fault substantially does not affect the control system. In another embodiment, the phase detector is designed and configured to freeze the frequency of its output upon detection of a fault event on the power network. | 08-30-2012 |
20120281447 | VOLTAGE CONVERTER AND METHOD OF PERFORMING VOLTAGE CONVERSION - A voltage converter includes a compensation unit, first and second control units, and an output voltage generation unit. The compensation unit selects compensation feedback voltage or output feedback voltage depending on an operation mode, and generates a compensation voltage based on the selected feedback voltage and a first reference voltage, the compensation feedback voltage corresponding to the compensation voltage, and the output feedback voltage corresponding to an output power supply voltage. The first control unit generates a first control signal based on the compensation voltage and a second reference voltage. The second control unit generates a second control signal based on the first reference voltage and the output feedback voltage. The output voltage generation unit selects one of the first control signal and the second control signal depending on the operation mode, and generates the output power supply voltage based on the selected control signal and an input voltage. | 11-08-2012 |
20120300515 | AC/DC Converter with a PFC and a DC/DC Converter - Disclosed is a power converter including a power factor corrector and a DC/DC converter and a power conversion method. | 11-29-2012 |
20120327695 | Linear Transformer Power Supply - A linear transformer power supply is disclosed that extracts a high level of energy from a linear transformer during the full cycle of AC input voltage. | 12-27-2012 |
20130003430 | OPTIMIZATION OF A POWER CONVERTER EMPLOYING AN LLC CONVERTER - A power converter includes an input stage connected to receive an input signal and to provide an intermediate DC voltage, and an output stage having an LLC converter connected to receive the intermediate DC voltage and to provide a DC output voltage. Additionally, the power converter includes a control unit connected to the input and output stages to regulate the DC output voltage and set a target operating parameter of the LLC converter based on controlling the intermediate DC voltage. A method of operating a power converter is also provided. | 01-03-2013 |
20130121046 | PHASE LOCKING SYSTEM FOR THREE-PHASE ALTERNATING CURRENT ELECTRIC GRID AND METHOD THEREOF - A phase locking system for a three-phase alternating current (AC) electric grid and a method thereof are disclosed. The method includes: receiving a three-phase voltage of the AC electric grid and converting the three-phase voltage to a two-phase voltage signal, each of which including a positive and a negative sequence components; obtaining a pure positive sequence component by subtracting the negative sequence component from the voltage signal of each phase and using αβ/dq coordinate transformation and low-pass filtering, and phase locking the pure positive sequence component; and obtaining an error signal by subtracting a disturbance variable and subsequently subtracting the positive sequence component from the voltage signal of each phase, wherein the disturbance variable includes the negative sequence component, and obtaining a signal including the negative sequence component by performing a α-β/d-q coordinate transformation on the error signal and adjusting the error signal through a regulator. | 05-16-2013 |
20130141953 | INVERTER CONTROL DEVICE AND INVERTER CONTROL METHOD - An inverter control device includes a voltage detector, a target value calculation section, an inverter control section, an abnormality detector and a voltage clamp unit. The target value calculation section calculates target value of an alternating current output from the inverter based on a detection voltage detected by the voltage detector. The inverter control section generates a control signal for a switching element of the inverter based on the detection voltage and the target value to control the inverter. The abnormality detector detects an abnormality in the voltage detector. The voltage clamp unit holds the detection voltage for calculating the target value at a first assured voltage determined based on a lower limit area of an assured voltage range that assures an operation of the inverter and holds the detection voltage for generating the control signal at a second (higher) assured voltage upon detecting the abnormality in the voltage detector. | 06-06-2013 |
20130182472 | POWER-SAVING VOLTAGE CONVERTER SYSTEM - A voltage converter system having a converter and a connector system may include a control circuit that enables or disables the converter in response to the connection status of the connector system. | 07-18-2013 |
20130223116 | CONTACTLESS CARD CLAMP CIRCUITS THAT COMPENSATE FOR REGULATOR REFERENCE VOLTAGE FLUCTUATIONS - A contactless card includes an inductive circuit configured to send and receive signals, a rectifier circuit coupled to the inductive circuit and configured to generate a DC voltage from an AC voltage generated by the inductive circuit, a clamp circuit configured to limit the DC voltage, a regulator circuit configured to regulate the DC voltage and a control circuit configured to selectively enable and disable the clamp circuit and the regulator circuit. | 08-29-2013 |
20130235630 | MULTIPLE DRIVER POWER SUPPLY - A power supply includes a power source having at least one power source output, and a plurality of drivers connected to the at least one power source output. At least one of the plurality of drivers includes a bridge network having a first switch, a second switch and a bridge network output. The first switch is connected between the at least one power source output and the bridge network output. The second switch is connected between the bridge network output and a ground. The bridge network further includes at least one control input connected to the second switch. The bridge network is adapted to change a state of the first switch based on a state of the second switch. | 09-12-2013 |
20130322138 | VOLTAGE SETTING OF ADAPTER - Embodiments herein relate to setting a voltage of an adapter ( | 12-05-2013 |
20140036558 | Power Controllers, Power Supplies and Control Methods Therefor - Disclosure includes an exemplified power controller for controlling a power switch in a power supply. The power supply converts an input power source into an output power source. The exemplified power controller comprises a maximum frequency maker, a voltage detector, and a logic circuit. Based on dependence of a maximum switching frequency upon a compensation signal, the maximum frequency maker provides a control signal with a minimum switching cycle. The compensation signal correlates to an output power from the output power source, and the minimum switching cycle is the reciprocal of the maximum switching frequency. The voltage detector detects a line voltage of the input power source. The logic circuit controls the power switch in response to the control signal, and makes a switching cycle of the power switch not less than the minimum switching cycle. The line voltage determines the dependence. | 02-06-2014 |
20140063878 | PARALLEL POWER SUPPLY AND POWER DETECTION METHOD FOR PARALLEL POWER SUPPLY - A parallel power supply includes a built-in test switch and a control and determination unit. The built-in test switch is arranged to generate a first detection signal. The control and determination unit is coupled to the built-in test switch. When receiving the first detection signal, the control and determination unit is operative for enabling a detection mechanism according to the first detection signal in order to detect an operation of the parallel power supply, and accordingly generating a detection result. A power detection method for a parallel power supply includes: disposing a built-in test switch inside the parallel power supply; and when receiving a first detection signal generated from the built-in test switch, enabling a detection mechanism according to the first detection signal in order to detect an operation of the parallel power supply, and accordingly generating a detection result. | 03-06-2014 |
20140133202 | BUCK-BOOST AC/DC CONVERTER - A buck-boost AC/DC converter includes a first switching element group that performs full-wave rectification of an AC signal thereby generating a full-wave rectified signal and performs a buck operation, a second switching element group for performing a boost operation, a reactor, and a control unit that causes the first switching element group or the second switching element group to selectively perform the buck operation or the boost operation based on PWM operation, to maintain a DC voltage at a constant value. The switching elements included in the first and second switching element groups possess FET characteristics, inverse FET characteristics and inverse conductive characteristics. The control unit is further configured to switch a gate-source voltage to be supplied to the switching elements included in the first switching element group according to a polarity of the AC signal, thereby causing the first switching element group to perform full-wave rectification. | 05-15-2014 |
20140268949 | APPARATUS AND SYSTEM OF POWER CONVERSION - A power converter for use with an area controller system to provide electrical power to electrical devices at the shelves of retail stores. The power converter converts power from the voltage, frequency, and amperage of the area controller system to the voltage, frequency, and amperage of various electrical devices. | 09-18-2014 |
20150016162 | PHOTOVOLTAIC INVERTER WITH SWINGING LINE FILTER INDUCTORS - The invention is a high efficiency single-phase or poly-phase DC-to-AC power converter apparatus and power conversion method which includes a line filter inductor or line filter inductors to integrate or filter pulse modulated waveforms into substantially sinusoidal waveforms wherein (i) the line filter inductor or inductors have inductance values that swing substantially from zero current to peak rated current and (ii) a pulse width modulation technique is used that varies both pulse width modulation duty cycles and periods as a function of the predicted instantaneous line filter inductance and the predicted di/dt across the line filter inductor or inductors in order to minimize power converter switching losses while maintaining AC power quality. With the invention, substantial CEC power conversion efficiency enhancements should be achievable and with an overall reduction in power converter parts cost. | 01-15-2015 |
20160056702 | MIXED-MODE POWER FACTOR CORRECTION - A controller for controlling a power converter is described. The controller may be configured determine a parameter value associated with the power converter, compare the parameter value to a predefined value, and change the conduction mode of the power converter based on the comparison. | 02-25-2016 |
20160126856 | ADJUSTING POWER CONSUMPTION OF A LOAD - An electronic device receives a voltage from an AC-DC adapter that is separate from the electronic device. The electronic device detects a change in the voltage from the AC-DC adapter. In response to detecting the change, the electronic device determines an amount of current from the AC-DC adapter. The electronic device adjusts a power consumption of a load in the electronic device based on the determined current. | 05-05-2016 |