| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 307075000 | Differing voltages | 62 |
| 20080211311 | Power supply apparatus - The present invention discloses a power supply apparatus which is an apparatus installed in an electronic system, and the apparatus includes a DC power input transformer connected with a DC voltage adapter through an electric extension cord, such that DC power of different voltage values is rectified into a single voltage value through the DC power input transformer and transmitted to the DC voltage adapter through an electric extension cord, and divided into different voltage outputs by the adapter for supplying different voltages to electronic equipments. The invention not only installs the transformer and the adapter at appropriate spaces depending on the spaces of the electronic system, but also supplies DC power with different voltages to different electronic equipments. | 09-04-2008 |
| 20080211312 | Multiplexed direct current regulation output circuit having balance control circuit - An exemplary multiplexed direct current regulation output circuit ( | 09-04-2008 |
| 20080211313 | SERIES REGULATOR - A series regulator, which includes a power adjusting portion to which power is supplied, the power adjusting portion making an adjustment to the power thus supplied and outputting the power thus adjusted to a load, and an adjustment control portion detecting an output voltage that is a voltage outputted to the load and controlling the adjustment based on the detection result, is provided with: a current detecting portion for detecting an output current that is a current outputted to the load; and a power supplying section for supplying the power to the power adjusting portion after changing a voltage according to the detection result of the current detecting portion. With this configuration, even when the magnitude of the output current varies, it is possible to appropriately adjust the input voltage according to the variations in the output current. | 09-04-2008 |
| 20080238208 | DC-DC switching cell modules for on-board power systems - A DC-DC switching cell module includes a switch, a rectifier, an output filter coupled to the rectifier, and an input port for receiving an external PWM control signal from a controller. The switching cell module is configured to control the switch in response to the external PWM control signal to generate a DC output voltage from a DC input voltage. The switching cell module is configured for attachment to a circuit board as a discrete component. | 10-02-2008 |
| 20080252145 | DC/DC POWER CONVERSION DEVICE - A DC/DC power conversion device includes n-stage circuits comprised of an inverter circuit for driving which is connected between positive terminals and negative terminals of smoothing capacitors, and a rectifier circuit which is connected between positive terminals and negative terminals of smoothing capacitors; a first circuit corresponding to at least one among the n-stage circuits and configured by connecting in parallel cell circuits of m, second circuits corresponding to a plurality of remaining circuits of (n−1) among the n-stage circuits; capacitors for energy transfer connected between middle points of the cell circuits and middle points of the second circuits; and column circuits of m comprised of the cell circuits, the second circuits and the capacitors for energy transfer, wherein the middle points are contact points of high voltage sided elements and low voltage sided elements of the cell circuits and the second circuits; and driving signals for driving the respective column circuits have the same driving cycle and are out of phase with each other. | 10-16-2008 |
| 20080303349 | TWO-SOURCE INVERTER - Systems and methods are disclosed for a two-source inverter. The systems and methods combines operation of a first voltage source powering a conventional single source inverter with second voltage source powering a novel switch configuration to power a load. The switch configuration is controlled by a plurality of control signals generated by controller based on a variety of control modes, and feedback signals. | 12-11-2008 |
| 20090009002 | Voltage switching circuits and methods - A circuit includes a first and a second input terminals and an output terminal. A first circuital branch is connected between the first input terminal and the output terminal, and a second circuital branch connected between the second input terminal and the output terminal. The first and second circuital branches are selectively activatable for coupling the first input terminal with the output terminal and the second input terminal with the output terminal, respectively. The first and second circuital branches each include at least one electronic device having at least a first and a second device terminals. Each electronic device can of sustain voltage differences across the first and second device terminals that are up-limited in absolute value by a first predetermined maximum value lower than the maximum of absolute values of voltage differences between the output terminal and the first input terminal, and between the output terminal and the second input terminal, respectively. | 01-08-2009 |
| 20090009003 | INTEGRATED CIRCUIT AND METHOD FOR CHARGE REVERSAL OF A CIRCUIT PART OF THE INTEGRATED CIRCUIT - A description is given of a method for charge reversal of a circuit part of an integrated circuit from a first electrical potential to a second electrical potential of a first voltage network. In this case, the circuit part is connected to the first voltage network for charge reversal. Furthermore, the circuit part is connected to a second voltage network for charge reversal, said second voltage network providing a third electrical potential between the first and the second electrical potential. The circuit part is automatically isolated from the second voltage network before its electrical potential reaches the second electrical potential. | 01-08-2009 |
| 20090091191 | ELECTRIC POWER SUPPLY SYSTEM - There is provided an electric power supply system in which electric power is delivered from one electric power unit to load or the other electric power unit and can control and monitor the other electric power unit by one electric power unit. An electric source bus is built up by connecting an output line | 04-09-2009 |
| 20090167092 | SIMULTANEOUS MULTI-VOLTAGE RAIL VOLTAGE REGULATION MESSAGES - Methods and mechanisms to simultaneously regulate two or more supply voltages provided to an integrated circuit by a voltage regulator. In an embodiment of the invention, a voltage regulation message exchanged between the integrated circuit and the voltage regulator includes an identifier indicating two or more supply voltages selected from a plurality of supply voltages provided to the integrated circuit by the voltage regulator, where the voltage regulation message relates to the indicated two or more supply voltages. In another embodiment, the voltage regulation message indicates a desired supply voltage level to which the indicated two or more supply voltages are to transition. | 07-02-2009 |
| 20090243392 | METHODS FOR SHIFTING COMMON MODE BETWEEN DIFFERENT POWER DOMAINS AND APPARATUS THEREOF - A signal processing system having different power domains is provided. The signal processing system has a first amplifier circuit operating under a first power domain; a second amplifier circuit operating under a second power domain and having a feedback configuration; a first impedance unit, coupled between an output node of the first amplifier circuit and a first input node of the second amplifier circuit; and a bias current generating circuit, coupled to the first input node of the second amplifier circuit, for providing a bias current to thereby reduce a DC current flowing through a feedback path of the second amplifier unit. | 10-01-2009 |
| 20090295229 | Midpoint current and voltage regulation of a multi-level converter - A controller for a multi-level converter regulates the DC midpoint voltage of the multi-level converter by accounting, for the effect non-redundant switch states have on the DC midpoint current. The controller includes a DC bus regulator that monitors the DC output voltage and generates in response a commanded voltage vector. The duty cycle calculator is operably connected to receive the commanded voltage vector generated by the DC-bus regulator and to generate in response to the commanded voltage vector duty cycles associated with non-redundant switch states. The DC midpoint regulator is operably connected to receive the non-redundant duty cycles calculated by the duty cycle calculator and to generate in response a first midpoint current command that accounts for the effect the non-redundant switch states have on the midpoint current. Based, at least, in part, on the calculated effect the non-redundant switch states will have on the midpoint current, the DC midpoint regulator regulates the DC midpoint voltage of the multi-level rectifier to a desired value. | 12-03-2009 |
| 20100066174 | SEMICONDUCTOR PROTECTION ELEMENTS FOR CONTROLLING SHORT CIRCUITS AT THE DC END OF VOLTAGE SOURCE CONVERTERS - A device for converting an electric current includes at least one phase module having an AC terminal and at least one DC terminal. Phase module branches, each of which is equipped with serially connected submodules, are respectively provided between each DC terminal and each AC terminal. Each submodule is provided with at least one power semiconductor. Semiconductor protecting means are connected in parallel or in series to at least one of the power semiconductors to enable the device to withstand even high short-circuit currents for a sufficient period of time. A method for protecting the power semiconductors of the device, is also provided. | 03-18-2010 |
| 20100102635 | ELECTRICAL SYSTEM AND AUTOMOTIVE DRIVE SYSTEM HAVING AN ON-DEMAND BOOST CONVERTER, AND RELATED OPERATING METHODS - Systems and methods are provided for an on-demand boost converter for use in a vehicle. An automotive drive system comprises a boost converter having an input node, a first output node associated with a first boost leg, and a second output node associated with a second boost leg. A fuel cell is coupled to the input node of the boost converter and a battery is coupled to the first output node. An inverter module is coupled to the second output node, and a vehicle traction drive unit is coupled the inverter module. A first switch is coupled between the second output node and the first output node, wherein the battery provides energy to the second output node when the first switch is closed. | 04-29-2010 |
| 20100117453 | MULTI-CAPACITY POWER SUPPLY FOR ELECTRONIC DEVICES - An electronic device may be provided with more than one industry-standard type of AC power connector. The electronic device may be powered in any of a variety of locations by selectively exposing one of the power connectors selected according to an AC power outlet available at that location. A location-specific power cord may be used to connect the exposed power connector to the AC power outlet. The location-specific power cord may have, for example, a line socket at one end of a type that matches the exposed power connector, and a power plug at the other end of a type that matches the AC power outlet at the location. Predefined power settings appropriate for use with the AC power outlet and the exposed power connector may be automatically invoked. | 05-13-2010 |
| 20100156187 | UPS System - There is provided a system for supplying power to a site having a load. The system comprises a number n of power source units, the value of n being greater than or equal to 3. The system further comprises a number t≦t | 06-24-2010 |
| 20100244570 | POWER CONVERSION DEVICE - A switch device is brought into conduction in a case where a carrier takes a value zero to drt, a switch device is brought into conduction in a case where the carrier takes a value the drt to one, and one cycle of the carrier is divided into a period in which the carrier has a command value or more and a period in which the carrier has the command value or less. The periods are calculated by dst·T and drt·T, respectively. The same one as the carrier of a converter is employed in a carrier of an inverter, and based on the value drt set as a reference value, a command value of the inverter is provided in each of a side with a value larger than the reference value and a side with a value smaller than the reference value. The period in which the carrier takes the value or more is divided at a ratio among d0, d4 and d6, and the period in which the carrier takes the value drt or less is divided at the ratio among d0, d4 and d6. | 09-30-2010 |
| 20100253148 | ELECTRIC POWER SUPPLY SYSTEM - An electric power supply system is provided for feeding an output of a DC power source to a load at high efficiency and, without complicated controlling, for allowing for interchange of electric power among a commercial power system, a DC power source and a load. | 10-07-2010 |
| 20110068632 | INTEGRATED CIRCUIT ADAPTED TO BE SELECTIVELY AC OR DC COUPLED - An integrated circuit is adapted to be selectively AC or DC coupled to an external device at a coupling point. The integrated circuit includes a first connector connected to the coupling point by way of a coupling capacitor for AC coupling, a second connector connected to the coupling point for DC coupling, and a switch to selectively short the first and second connectors and thereby the coupling capacitor, when the integrated circuit is DC coupled to the device. The switch may be a MOSFET bridge comprising a switch control MOSFET interconnected between the first and second connectors, with the switch control MOSFET receiving at its gate a mode status signal for turning on the switch control MOSFET and thereby shorting the MOSFET bridge when the integrated circuit is DC coupled to the external device. The MOSFET bridge also includes a number of dynamically biased nMOSFETs connected in series with the switch control MOSFET in order to protect switch control MOSFET from high external supply voltages, and a number of dynamically biased pMOSFETs connected in parallel with the switch control MOSFET. | 03-24-2011 |
| 20110084555 | Power Supply System for Electrical Appliance - A power supply system is disclosed. The system comprises an AC power source from a power grid and a DC power source from an alternative energy source. The alternative energy source is a solar system in the preferred embodiment. The system provides a means of supplying the electrical appliance the DC power from the solar system with the higher priority. According to one embodiment of the present invention, a switch controlled by a controller provides a means of switching the power supply in between the two power sources without disrupting the operation of the appliance. According to another embodiment, a voltage regulator combines power generated from both sources to supply the power for the appliance with consuming the DC power from the solar system as the priority source. | 04-14-2011 |
| 20110127838 | POWER CONVERTER - A power converter includes an inverter circuit for superimposing a generated voltage on an AC input voltage, a diode bridge full-wave rectifying circuit connected to the inverter circuit, smoothing capacitors connected between DC output terminals of the rectifying circuit, short-circuit switches connected to the rectifying circuit, a rectification mode changing circuit connected to the rectifying circuit, a short-circuit switch control circuit for maintaining the short-circuit switches in an on state in a short-circuit phase range, a rectification mode control circuit for maintaining the rectification mode changing circuit in an off state in the short-circuit phase range and an inverter control circuit for PWM-controlling the inverter circuit so that an output voltage of the rectifying circuit follows a target output voltage when the rectification mode changing circuit is in the off state. | 06-02-2011 |
| 20110133561 | SEMICONDUCTOR DEVICE - A semiconductor device ( | 06-09-2011 |
| 20110148209 | ENERGY STORAGE SYSTEM FOR PEAK-SHAVING OF DRILLING RIG POWER USAGE - An energy storage means for a drilling rig has a source of power, an AC bus connected to the source of power, a DC bus, a load connected to the DC bus, a rectifier connected to the AC bus and to the DC bus for converting AC power from the source of power to DC power to the load, and an energy storage system connected to the DC bus. The energy storage system can be batteries, capacitors or combinations thereof. A diode is connected between the energy storage means and the DC bus so as to supply power to the load when the DC voltage is less than a DC source voltage. The energy storage system has a nominal voltage slightly lower than a voltage of a AC-to-DC conversion by the rectifier. | 06-23-2011 |
| 20110181116 | POWER CONTROL APPARATUS, IMAGE FORMING APPARATUS, AND POWER CONTROL PROGRAM PRODUCT - A reception unit sequentially receives input of voltage values indicating an AC input voltage from an AC power supply. A ROM stores a power control table in which a power control parameter corresponding to the AC power supply voltage is matched with each group of the voltage values indicating the same AC power supply voltage. A decision unit determines to which group the received voltage values belong among the plurality of groups, whenever the reception unit receives the input of the voltage value and decides the group, to which a predetermined number of voltage values belongs among the plurality of voltage values sequentially received by the reception unit, among the plurality of groups using the determination result. A power control unit controls power supply according to the power control parameter matched with the decided group. | 07-28-2011 |
| 20110187199 | APPARATUS AND METHOD FOR BOOSTING OUTPUT OF A GENERATOR SET - An apparatus and method for boosting output of a generator set are provided. The output of the generator set is connected to an electrical load. The apparatus includes an energy storage unit, and a power-electronic unit. The energy storage unit uses batteries and capacitors to store electric energy. The power-electronic unit measures an electrical parameter of the output of the generator set. Based on the measured electrical parameter and a predefined criterion, the power-electronic unit determines additional energy required by the electrical load. Thereafter, the power-electronic unit supplies the additional energy to the electrical load. The additional energy is drawn from the energy storage unit. | 08-04-2011 |
| 20110193412 | Converter device and uninterruptible power supply equipped with such a device - A converter to supply an AC voltage on a modulated signal output comprising two switching units each provided with a DC voltage input and a switching output to supply pulses varying between the voltage on the input in a first switched state, and a reference voltage in a second switched state, each switching unit comprising a first switch connected between the input and the switching output to establish said first switched state, said device comprising, for each switching unit, a second switch connected between said switching output and said modulated signal output to activate said switching unit, and a third switch connected between the input of said switching unit and the modulated signal output. | 08-11-2011 |
| 20110215651 | POWER CONVERSION APPARATUS - In a power conversion apparatus that converts AC power to DC power, an inverter circuit including one or more single-phase inverters connected in series with each other is connected in series at the subsequent stage of a rectification of an AC input. At the subsequent stage of the inverter circuit, a smoothing capacitor connected via a rectification diode, and a short-circuiting switch for bypassing the smoothing capacitor are provided. The short-circuiting switch is subjected to ON/OFF control by PWM control such that a voltage of the DC voltage supply of the inverter circuit follows a target voltage. The inverter circuit is subjected to output control such that a DC voltage of the smoothing capacitor follows a target voltage and an input power factor is improved. | 09-08-2011 |
| 20110227418 | AC-TO-DC CONVERSION - A front-end converter in an uninterruptible power supply system includes: a boost circuit having first and second inputs, and positive, negative, and neutral output nodes, and being configured to provide a positive capacitor voltage between the positive and neutral nodes and to provide a negative capacitor voltage between the negative and neutral nodes; an inductor coupled to the first input; first AC and neutral AC inputs to receive AC power; a battery; a first device to selectively couple the inductor to the first AC input or a positive port of the battery; and a second device to selectively couple a negative port of the battery to the second input; where the inductor is shared between an online mode of the converter and an on-battery mode of the converter and the battery is coupled through the inductor to the first input during the on-battery mode. | 09-22-2011 |
| 20110248568 | ENERGY STORAGE DEVICE POWER SLEEP MODE - In methods and apparatuses at least one power supply is connected to at least one functional component. The power supply is also connected to an alternating current power source. The power supply provides power to the functional component when the functional component is operating in a relatively high power mode (normal operating mode). In addition, at least one energy storage device is connected to the functional component. The energy storage device supplies energy storage device power to the functional component when the functional component is operating in a relatively low power mode, such as a sleep mode. | 10-13-2011 |
| 20110260545 | VOLTAGE IN A VOLTAGE SOURCE CONVERTER, A VOLTAGE SOURCE CONVERTER AND A METHOD FOR CONTROL THEREOF - A VSC converter includes in each valve one first semiconductor device of turn-off type with a voltage blocking capacity rating of a first, high level and connected in parallel therewith a series connection of a plurality of second semiconductor devices of turn-off type with a voltage blocking capacity rating of a second, lower level. A control arrangement of the converter is configured to switch a said valve into a conducting state starting from a forward biased blocking state of the valve by controlling the second semiconductor devices to be turned on and then the first semiconductor devices to be turned on with a delay, and at the end of the conducting state to turn off the first semiconductor device in advance of turning the second semiconductor devices off. | 10-27-2011 |
| 20110260546 | OUTPUT CONTROL APPARATUS FOR HYBRID ENGINE GENERATOR - Suppresses noise due to high engine speed and improves emission and fuel consumption of a hybrid generator. A difference computing unit | 10-27-2011 |
| 20110285207 | SWITCHING APPARATUS - A switching apparatus that switches a connection state between two terminals, comprising a switch that switches the connection state between the two terminals according to a control voltage supplied thereto; a first power supply section that generates power supply voltage with a first voltage value; a second power supply section that generates power supply voltage with a second voltage value; and a driving section that, upon receiving switching instructions to switch the switch from a first state to a second state, uses power generated by the first power supply section to change the control voltage to be the first voltage value, and then uses power generated by the second power supply section to further change the control voltage from the first voltage value to the second voltage value, in the same direction and with a rate of change over time that is less than a rate of change over time used when changing to the first voltage value. | 11-24-2011 |
| 20110309682 | SWITCHING POWER SUPPLY CIRCUIT - The present invention includes: a first series circuit which is connected between one end and the other end of a DC power supply, and in which a reactor, a first diode, and a first capacitor are connected in series; a first switching element connected between the one end of the DC power supply and a connection point between the reactor and the first diode; a second series circuit which is connected to the first diode in parallel, and in which a second switching element and a second capacitor are connected in series; and a control circuit configured to control the on and off of the second switching element in order that turn on of the first switching element becomes to zero-voltage switching. | 12-22-2011 |
| 20120086280 | Power Supply System for Electrical Appliance - A power supply system for an electrical appliance is disclosed. The system comprises a DC power path and an AC power path. Power limiters are used to limit output power to the appliance. A controller is used to maximize power consumption from DC path that receives the power from an alternative energy generation system such as a solar system. | 04-12-2012 |
| 20120112549 | COMPENSATION FOR ELECTRICAL CONVERTER NONLINEARITIES - Systems and methods are provided for delivering energy from an input interface to an output interface. An electrical system includes an input interface, an output interface, an energy conversion module between the input interface and the output interface, an inductive element between the input interface and the energy conversion module, and a control module. The control module determines a compensated duty cycle control value for operating the energy conversion module to produce a desired voltage at the output interface and operates the energy conversion module to deliver energy to the output interface with a duty cycle that is influenced by the compensated duty cycle control value. The compensated duty cycle control value is influenced by the current through the inductive element and accounts for voltage across the switching elements of the energy conversion module. | 05-10-2012 |
| 20120153727 | INVERTER AND POWER CONVERTER HAVING INVERTER MOUNTED THEREIN - Disclosed is an inverter having improved power conversion efficiency. The inverter ( | 06-21-2012 |
| 20120169128 | Reversible Alternating-Current and Direct-Current Conversion Apparatus with High Frequency - An alternating-current and direct-current conversion apparatus includes a first converter unit, a switching unit electrically connected with the first converter unit, and a second converter unit electrically connected with the switching unit. The switching unit is connected between the first converter unit and the second converter unit and is operated to convert a direct-current power into an alternating-current power or to convert an alternating-current power into a direct-current power so that the direct-current power of the direct-current source is converted into an alternating-current power which can be used by the alternating-current source, and the alternating-current power of the mains power supply is converted into a direct-current power which can be used by the direct-current source. | 07-05-2012 |
| 20120274141 | VARIABLE CAPACITANCE DEVICE - A variable capacitance device includes a substrate, a beam, a driving capacitance, a variable capacitance, and a driving voltage control circuit. The beam is connected to the substrate by a cantilever structure. The driving capacitance is generated in an area where the beam and the substrate faces each other, and causes the beam to be deformed in accordance with an electrostatic attraction generated by application of a DC voltage. The variable capacitance is generated in another portion where the beam and the substrate face each other, and the capacitance thereof changes in accordance with the displacement of the beam. The driving voltage control circuit detects a detection voltage that changes in accordance with the driving capacitance and controls the DC voltage applied to the driving capacitance such that the detection voltage approaches a desired value. | 11-01-2012 |
| 20120299383 | POWER DISTRIBUTION SYSTEM - A system coordination unit | 11-29-2012 |
| 20130015714 | Smart Power PortalAANM Kwok; Leo Y.AACI MilpitasAAST CAAACO USAAGP Kwok; Leo Y. Milpitas CA US - A smart power portal able to supply electrical power to attached or connected electronic or electrical devices is disclosed. The portal, which can be a power strip or wall-mounted unit, includes a receiver, a transformer, a direct current (“DC”) converter, and a Greeny port. The receiver, in one embodiment, is coupled to an alternating current (“AC”) power source for drawing electricity of AC power, and the transformer is able to convert at least a portion of the AC power to DC power. The DC converter is able to convert the DC power into a grade of DC voltage levels, and the Greeny port is coupled with a removable electronic device. The portal, in one aspect, includes multiple outlets wherein each outlet provides an independent or specific voltage level of DC power output. The Greeny port, in one example, is capable of detecting minimal power required to operate the removable electronic device. | 01-17-2013 |
| 20130015715 | SIMULTANEOUS MULTI-VOLTAGE RAIL VOLTAGE REGULATION MESSAGES - Methods and mechanisms to simultaneously regulate two or more supply voltages provided to an integrated circuit by a voltage regulator. In an embodiment of the invention, a voltage regulation message exchanged between the integrated circuit and the voltage regulator includes an identifier indicating two or more supply voltages selected from a plurality of supply voltages provided to the integrated circuit by the voltage regulator, where the voltage regulation message relates to the indicated two or more supply voltages. In another embodiment, the voltage regulation message indicates a desired supply voltage level to which the indicated two or more supply voltages are to transition. | 01-17-2013 |
| 20130062954 | TWO-INPUT UNINTERRUPTIBLE VOLTAGE CONVERTING DEVICE AND METHOD THEREOF - The invention relates to a two-input uninterruptible voltage converting device and a method thereof. The device comprises a first conversion circuit, a second conversion circuit, an energy storage unit, a fly-wheel switch tube and a control unit. The method comprises the following steps of: converting a PWM signal outputted by a pulse width modulator into first, second, third and fourth PWM signals in phase via a pulse transformer; driving the first conversion circuit and the second conversion circuit respectively to operate synchronously; converting a high voltage DC (Direct Current) and a low voltage DC into two pulse voltages in phase to adaptively perform mutual energy compensation via an intersection; and supplying a load with an uninterruptible stable voltage via the back-end energy storage unit and free-wheel circuit. The two-input uninterruptible voltage converting device has the advantages of high circuit conversion efficiency, high reliability and low power consumption. | 03-14-2013 |
| 20130093247 | Apparatus and method for modulating supply for a power amplifier - An apparatus and method for improving the efficiency of a power supply modulator for modulating a supply voltage of a power amplifier are provided. The apparatus for generating a supply voltage includes a Switching Mode Power Supplier (SMPS) module for generating a current of a power supply signal, and a linear regulator for generating a source current for supplementing an insufficient amount of the current generated by the SMPS module and a sink current for eliminating an excessive amount of the current generated by the SMPS module. The SMPS module generates the current of the power supply signal by selecting at least one of a plurality of power supplies that have different voltages according to a voltage level of an input signal of the SMPS module. | 04-18-2013 |
| 20130134788 | SEMICONDUCTOR DEVICE - A semiconductor device includes an inverter constituted from first and second transistors connected in series between a first power supply and a second power supply and a first circuit connected between the first and second transistors which have gates coupled together. The first circuit includes a first resistance element of a positive temperature characteristic and a third transistor connected to each other in parallel. The third transistor operates at least in a region where a resistance between drain and source terminals exhibits a negative temperature characteristic. | 05-30-2013 |
| 20130147278 | INDUCTION LOAD DRIVING SYSTEM - When a direction command signal indicates a first direction, a signal for causing the other end of the induction load to be connected to a second power supply unit is output as a second control signal. In addition, after a passage of a first predetermined delay time after a first current detection value becomes less than a reference value of a conducting current, a signal for causing the one end of the induction load 5 to be connected to a first power supply unit is output as a first control signal. And, after a passage of a second predetermined delay time after the first current detection value becomes equal to or greater than the reference value of the conducting current, a signal for causing the one end of the induction load to be connected to the second power supply unit is output as the first control signal. | 06-13-2013 |
| 20130193765 | Maximizing Power in a Photovoltaic Distributed Power System - A power harvesting system including multiple parallel-connected photovoltaic strings, each photovoltaic string includes a series-connection of photovoltaic panels. Multiple voltage-compensation circuits may be connected in series respectively with the photovoltaic strings. The voltage-compensation circuits may be configured to provide respective compensation voltages to the photovoltaic strings to maximize power harvested from the photovoltaic strings. The voltage-compensation circuits may be include respective inputs which may be connected to a source of power and respective outputs which may be connected in series with the photovoltaic strings. | 08-01-2013 |
| 20130270916 | SYSTEMS AND METHODS FOR LIMITING VOLTAGE ON AN AUXILIARY BUS - Systems and methods for limiting voltage on an auxiliary bus are described. The voltage-limited auxiliary bus may be comprised of a DC auxiliary bus comprised of a positive conductor and a negative conductor; a chopper, wherein the chopper is normally in a non-conducting state; a resistor in series with the chopper, wherein the chopper and the resistor are connected between the positive conductor and the negative conductor of the DC auxiliary bus; and a chopper control, wherein an overvoltage on the DC auxiliary bus causes the chopper control to cause the chopper to begin conducting and the conducting limits the voltage on the DC auxiliary bus and dissipates energy from the overvoltage. | 10-17-2013 |
| 20130293021 | ENHANCED UTILIZATION OF REAL POWER GENERATING CAPACITY OF DISTRIBUTED GENERATOR (DG) INVERTERS AS STATCOM - Systems, methods, and devices relating to the provision of system control support in the form of reactive power support or voltage control support to power transmission or distribution networks using inverter based power generation facilities that are coupled to the power transmission or distribution networks. An inverter based power generation facility, such as a photovoltaic based solar farm or a wind farm, can task all or a portion of its inverter capacity to provide reactive power support or voltage control support to the power transmission or distribution network. This invention applies to the operation of PV solar systems anytime during the day (even during peak power generation times) and other inverter based DGs during the entire 24-hour period. The power generation facility disconnects at least one of its power generation modules from the power transmission or distribution network and makes available required inverter capacity for providing system control support. | 11-07-2013 |
| 20140049114 | RELAY DRIVING DEVICE AND METHOD FOR DRIVING A RELAY - A relay driving device includes first and second power supply modules, a switching circuit, and a control module. The first power supply module outputs a first voltage that has a magnitude sufficient to activate the relay. The second power supply module outputs a second voltage that has a magnitude sufficient to maintain an activated state of the relay. The control module is configured to control the switching circuit to connect the relay to the first power supply module so as to provide the first voltage to the relay for activating the relay, and to subsequently connect the relay to the second power supply module so as to provide the second voltage to the relay for maintaining the activated state of the relay. | 02-20-2014 |
| 20140077607 | POWER DISTRIBUTION SYSTEMS - A power distribution system such as a marine power distribution and propulsion system. The system includes an ac busbar and a plurality of active front end power converters. Each AFE power converter includes a first active rectifier/inverter connected to the busbar and a second active rectifier/inverter connected to an electrical load such as an electric propulsion motor. Power sources are connected to the dc link of the AFE power converters and can be operated under the control of a power management controller or power management system. | 03-20-2014 |
| 20140265599 | Power Flow Analysis Method and Apparatus for Hybrid AC-DC Systems - Power flow in a hybrid AC-DC power system is analyzed by determining DC power injection variables as a function of AC state information for common coupling buses which connect AC and DC grids. The AC state information includes voltage magnitude and phase angle information for the common coupling buses and buses in the AC grid(s). The DC power injection variables indicate AC power injection into the one or more AC grids at the common coupling buses from the DC grid(s). The AC state information is revised iteratively as a function of the DC power injection variables and the sensitivity of the DC power injection variables to the AC state information, and the DC power injection variables and the sensitivity of the DC power injection variables are revised iteratively as a function of the revised AC state information until the power mismatch is acceptable. | 09-18-2014 |
| 20140368045 | Power Management and Energy Storage Method - A method for improving grid power quality despite the presence of rapidly changing loads and a rapidly changing supply. The inventive method includes an energy generation mode that is used when grid demand is relatively high and an energy storage mode that is used when the energy supply exceeds the grid demand. The method is able to rapidly switch between the two modes. In the energy storage mode some of the energy available from a source is transferred to a storage unit. In the energy generation mode, available energy and stored energy is transferred to the grid. | 12-18-2014 |
| 20150349534 | MASTER/SLAVE CONTROL SYSTEM OF AC/DC POWER SUPPLY - A master/slave control system of an AC/DC power supply includes a master device. The master device is able to supply AC and DC power. The master device is connected with a plurality of slave devices through a plurality of local area network transmission interfaces. The slave devices are able to supply AC and DC power. Through the local area network transmission interfaces, a control signal can be transmitted fast for the mater device and slave devices to carry out a master/slave control. The signal transmission efficiency of the master/slave control can be enhanced greatly, so that the master/slave control is more fast and prompt. The present invention avoids the arrangement of the traditional series data communication interface and the controller area network, and simplifies the configuration and wiring of the master device and the slave devices. | 12-03-2015 |
| 20150364921 | POWER ASSIST UNIT AND POWER ASSIST SYSTEM - A power assist apparatus includes a branch power lines, a first power storage device, a power assist converter, and a second power storage device. The branch power line is connected to a main line of a natural energy power generation system, which is connected to a system. The first power storage device connected to the branch power line. The power assist converter connected to the branch power line. The second power storage device connected to a downstream side of the power assist converter. | 12-17-2015 |
| 20160013651 | Power Providing Apparatus for Use with Multiple Electricity Sources | 01-14-2016 |
| 20180026547 | MAXIMIZING POWER IN A PHOTOVOLTAIC DISTRIBUTED POWER SYSTEM | 01-25-2018 |
| 307076000 | Generator sources | 6 |
| 20080252146 | CONTROLLABLE POWER SUPPLY DEVICE WITH STEP-UP FUNCTION - A controllable power supply device with a step-up function including a constant voltage generator, a programmable voltage generator, a first switch and a linear regulator is provided. The constant voltage generator is used to provide an initial voltage. The programmable voltage generator is used to receive the initial voltage and adjust the received initial voltage to boost the initial voltage to a power supply voltage. The first connecting terminal of the first switch is used to receive the initial voltage, the second connecting terminal of the first switch is used to receive the power supply voltage, and the third connecting terminal of the first switch is coupled to one of the first connecting terminal and the second connecting terminal. Therefore, the voltage from the third connecting terminal of the first switch is stabilized and is outputted as the output voltage of the controllable power supply device by the linear regulator. | 10-16-2008 |
| 20080296976 | Power system with multiple generator units - A method of operating a power system is provided, the power system having power-system controls. The method may include automatically setting a priority ranking for a plurality of generator units of the power system with the power-system controls based at least in part on an operating parameter of each generator unit indicative of a quantity of work done by the generator unit. The method may also include automatically controlling which of the generator units run with the power-system controls based at least in part on the priority ranking of the generator units. | 12-04-2008 |
| 20100231050 | MULTIPLE POWER SUPPLY INTEGRATION APPARATUS, MULTIPLE POWER SUPPLY INTEGRATION SYSTEM, AND MULTIPLE POWER SUPPLY INTEGRATION PROGRAM - A multiple power supply integration apparatus measures electric power and stability of power supplies, outputs thereof having irregularity. Based on measured values of the electric power and the stability, certainty of entire supply of the electric power when a use allocation rate of the power supplies is changed is indexed as an evaluation value. The multiple power supply integration apparatus adjusts each converter according to a use allocation rate corresponding to a largest evaluation value, thereby adjusting a magnitude of the electric power supplied from each power supply to a common power line. | 09-16-2010 |
| 20110140527 | ENERGY STORAGE SYSTEM - An energy storage system includes: a new renewable energy unit generating a new renewable energy power; a DC link connected to the new renewable energy unit and generating a DC link power; a power system connected to the DC link and generating a power system power; a battery connected to the DC link and generating a battery power; an auxiliary power generator connected to the power system, the new renewable energy unit, the DC link, and the battery, respectively, and generating an auxiliary power; and an integrated controller connected to the auxiliary power generator and receiving the auxiliary power. The auxiliary power is selected from one of the power system power, the new renewable energy power, the DC link power, and the battery power. | 06-16-2011 |
| 20120126623 | PORTAL FOR HARVESTING ENERGY FROM DISTRIBUTED ELECTRICAL POWER SOURCES - A modular portal system and method for harvesting energy from distributed power sources. The distributed power sources include renewable and nonrenewable energy sources, which are coupled to a backplane. The backplane receives modular preconditioner modules and inverter modules, which are inserted into module slots. The preconditioner modules receive power from the distributed power sources via backplane connections and output conditioned DC power to a DC bus on the backplane. The inverters are coupled to the DC bus, receive the DC power, and convert the DC power to AC power. The backplane also includes a controller for selectively coupling the energy harvesting system to a power grid. The AC power generated by the inverter is selectively applied to the power grid and to local loads. | 05-24-2012 |
| 20140103727 | ISLAND GRID POWER SUPPLY APPARATUS AND METHODS USING ENERGY STORAGE FOR TRANSIENT STABILIZATION - A system includes at least one generator coupled to an island grid, at least one energy storage unit and at least one converter coupled to the at least one energy storage unit and configured to be coupled to the island grid. The system further includes a control circuit configured to cause the at least one converter to transfer power between the at least one energy storage unit and the grid responsive to a change in a load on the island grid to maintain operation of the at least one generator at a predetermined operating point. The at least one generator may include a control system configured to match generator output to the load and the control circuit may be configured to maintain the control system of the at least one generator within a predetermined dynamic response capability limit responsive to the change in the load. | 04-17-2014 |
