Patent application number | Description | Published |
20110299311 | Power Generation System, Power Converter System, And Methods Of Converting Power - A power converter system includes an inverter including a first bridge and a second bridge, wherein each of the first bridge and the second bridge includes at least one switch. The power converter system also includes an inductor including a first winding coupled to an output of the first bridge and a second winding coupled to an output of the second bridge. | 12-08-2011 |
20130076135 | High-Power Boost Converter - A high-power boost converter including two or more inductors coupled to an input DC power source and to switches that can be modulated to control the output power of the high-power boost converter. The two or more inductors are further coupled to each other electrically, magnetically, or both electrically and magnetically. | 03-28-2013 |
20130077367 | SYSTEMS AND METHODS FOR USE IN GRID FAULT EVENT CONTROL - System, power modules, and methods for supplying an output voltage to an electric grid are provided. One example power module includes a switching device configured to supply an output from a power generator to an electric grid, a feedback unit configured to provide a feedback signal indicative of a deviation of a parameter associated with the electric grid, and a controller coupled to the feedback unit and the switching device. The controller is configured to adjust a reactive current of the output in response to at least one grid fault event to ride through the at least one grid fault event, to modify the deviation provided from the feedback unit, to control the switching device based on the modified deviation, and to detect an islanding condition based on the parameter associated with the electric grid. | 03-28-2013 |
20130100720 | POWER CONVERTER SYSTEMS AND METHODS OF OPERATING A POWER CONVERTER SYSTEM - A power converter system includes a converter, a DC link, an inverter, a damping circuit, and a control system. The converter includes an input to couple to a power generation unit and an output to provide a direct current (DC) DC power output. The DC link includes a capacitor coupled to the converter output. A voltage across the capacitor defines a DC link voltage. The inverter includes an input coupled to the DC link. The damping circuit is coupled between the converter and the inverter in parallel with the DC link capacitor. The damping circuit includes a normally closed switching device, and a resistor coupled in series with the normally closed switching device. The control system is coupled to the damping circuit and configured to control the normally closed switching device as a function of at least one operating parameter of the power converter system. | 04-25-2013 |
20130119763 | PRECHARGING AND CLAMPING SYSTEM FOR AN ELECTRIC POWER SYSTEM AND METHOD OF OPERATING THE SAME - A power converter includes a plurality of direct current (DC) conduits and a precharging and clamping circuit coupled to the DC conduits. The precharging and clamping circuit includes at least one diode, at least one switching device coupled in parallel with the diode, and at least one contactor device coupled to an alternating current (AC) source and the diode. The at least one contactor device is configured to facilitate alternating said precharging and clamping circuit between precharging operation and voltage clamping operation. | 05-16-2013 |
20130222951 | FAULT PROTECTION CIRCUIT FOR PHOTOVOLTAIC POWER SYSTEM - A fault protection scheme for a photovoltaic power converter system is provided. According to aspects of the present disclosure, a fault protection circuit is coupled between a power converter and a ground reference. The fault protection circuit includes a fuse and a current sensor coupled in series with the fuse. A controller is configured to receive current readings from the current sensor and compare the current readings to a current threshold. The current threshold is selected to be less than the fuse current rating of the fuse. The controller identifies a fault condition if the current flowing through the ground protection circuit exceeds the current threshold value. A contactor can also be provided to temporarily lift the power converter relative to the ground reference to determine the existence of other fault paths in the system. | 08-29-2013 |
20130258732 | SYSTEM AND METHOD FOR REDUCING REACTIVE CURRENT IN POWER CONVERTER BURN-IN TESTS - A system and method for reducing reactive current in burn-in test systems for solar power converters is disclosed. An emulator configured to simulate a DC power source and the power converter subject to the burn-in test can be coupled in a two-unit circulating configuration. An AC feeder line configured to supply power to the two-unit circulating configuration. A controller can be configured to adjust the output of one or more of the emulator and power converter to reduce reactive current flowing in the AC feeder line. For instance, the controller can adjust the modulation of switching devices used in the power converter or emulator to adjust the power factor of various components of the burn-in test system to compensate for the reactive current in the AC feeder line. | 10-03-2013 |
20130279228 | SYSTEM AND METHOD FOR IMPROVING LOW-LOAD EFFICIENCY OF HIGH POWER CONVERTERS - Systems and methods for improving low-load efficiency of power converters are provided. The power converter can include one or more bridge circuits having multiple switching modules, such as insulated gate bipolar transistor (IGBT) modules, connected in parallel within the same bridge circuit. The power converter is configured to convert power from an input power source, such as a photovoltaic array or a wind turbine, into output power at a grid frequency. To avoid excessive switching losses at low load conditions, the power converter can be controlled to selectively operate a subset of the switching modules within the same bridge circuit based on a load condition for the power converter. The remaining switching modules in the bridge circuit can be disabled. | 10-24-2013 |
20130293287 | SYSTEM AND METHOD FOR OPERATING AN ELECTRIC POWER CONVERTER - A regulating system for an insulated gate bipolar transistor (IGBT) includes a clamping circuit coupled to the IGBT. The IGBT is coupled to a gate driver circuit. The regulating system also includes a feedback channel coupled to the clamping circuit. The feedback channel is configured to transmit signals representative of a conduction state of said clamping circuit. The regulating system further includes at least one gate driver controller coupled to the feedback channel and the gate driver circuit. The gate drive controller is configured to regulate temporal periodicities of the IGBT in an on-condition and an off-condition. | 11-07-2013 |
20130301327 | SYSTEM AND METHOD OF PARALLEL CONVERTER CURRENT SHARING - In one aspect, a method of converting power is described. One embodiment of the method comprises receiving direct current (DC) power; channeling the DC power through an inverter including a first bridge and a second bridge, wherein each of the first bridge and the second bridge includes at least one switch; controlling the at least one switch of the first bridge and the at least one switch of the second bridge to convert the DC power to alternating current (AC) power; and, channeling the AC power through an inductor that includes a first winding and a second winding, wherein the first winding is coupled to an output of the first bridge and the second winding is coupled to an output of the second bridge and wherein the inductor is configured to have a first magnetic path for common mode inductance and a second magnetic path for differential mode inductance. | 11-14-2013 |
20140056041 | POWER GENERATION SYSTEM, POWER CONVERTER SYSTEM, AND METHODS OF OPERATING A POWER CONVERTER SYSTEM - A power converter system includes a converter configured to be coupled to a power generation unit for receiving power from the power generation unit, and a bus coupled to the converter, wherein a voltage is generated across the bus when electricity is conducted through the power converter system. The power converter system also includes an inverter coupled to the bus, wherein the inverter is configured to supply power to an electrical distribution network. A control system is coupled to at least one of the converter and the inverter, wherein the control system is configured to adjust an operation of the at least one of the converter and the inverter to reduce the voltage across the bus during at least one of a low voltage event and a high voltage event. | 02-27-2014 |
20140184308 | SYSTEMS AND METHODS FOR CONTROL OF POWER SEMICONDUCTOR DEVICES - A device includes a controller configured to regulate one or more voltages applied to a gate of an insulated gate bipolar transistor (IGBT). The controller is configured to receive one or more voltage values associated with the IGBT, and generate a gating signal and transmit the gating signal to the IGBT. The gating signal is configured to activate or deactivate the IGBT. The controller is configured to generate a voltage clamping signal and transmit the voltage clamping signal to activate or deactivate an active switching device. The active switching device is configured to periodically limit the one or more voltage values associated with the IGBT based at least in part on one or more characteristics of the voltage clamping signal. | 07-03-2014 |
20140293489 | Systems and Methods for Use in Identifying and Responding to Type of Grid Fault Event | 10-02-2014 |
20140301120 | Systems and Methods for Use in Recovering a Converter After Grid Fault Event - Systems, power modules ( | 10-09-2014 |
20150028672 | ISOLATED BATTERY MANAGEMENT SYSTEMS AND METHODS THEREOF - Systems and methods of the invention relate to circuitry that isolates low power circuitry of a battery management system. One or more circuits can be utilized with a battery management system to provide isolation of low power circuitry from at least one of a high voltage, noise interference from a battery, noise interference from a high voltage, sensor signals, control signals, among others. The circuitry further provides high voltage from a grid to be stepped-down to a voltage level usable by circuitry, port(s), and/or a processor. | 01-29-2015 |
20150030901 | BATTERY HEATER SYSTEMS AND METHODS - Systems and methods for supplying power to a battery heater in one or more battery modules. A first DC electrical signal derived from an AC source or a second DC electrical signal derived from a DC bus is used to power a battery heater of one or more battery modules in dependence on a voltage level associated with the first DC electrical signal relative to a voltage level of the second DC electrical signal. | 01-29-2015 |