Patent application number | Description | Published |
20090121483 | METHODS AND SYSTEMS FOR WIND TURBINE GENERATORS - Methods and systems for reducing heat loss in a generator system are provided. The generator system includes an electrical generator and a power converter. The method includes generating electricity in the generator at a first power factor and converting electricity in the converter at a second power factor in a first mode of operation and generating electricity in the generator at a third power factor wherein the third power factor is greater than the first power factor and converting electricity in the converter at a fourth power factor wherein the fourth power factor is less than the second power factor in a second mode of operation such that the power output of the generator system in the second mode of operation is substantially equal to the power output of the generator system in the first mode of operation and the generator currents are facilitated being reduced. | 05-14-2009 |
20100049486 | Systems and Methods for Simulating Plant Operations - Embodiments of methods and systems of a system for simulating a plant are provided. According to one exemplary embodiment of the invention, there is disclosed a system for simulating a plant. The system may include a controller including plant operation logic for executing control commands to the plant. The system may further include a simulator in communication with the controller, where the simulator may consist of high bandwidth hardware having at least one high bandwidth model of at least a first plant behavior. The simulator may also consist of at least one processor with at least one low bandwidth model of at least a second plant behavior. | 02-25-2010 |
20100133904 | DC BUS VOLTAGE CONTROL FOR TWO STAGE SOLAR CONVERTER - Systems, methods, and apparatus for supplying AC power to an AC power grid from a DC power source, such as a photovoltaic (PV) array are disclosed. The systems and methods can include a converter coupled to the DC power source that provides DC power to a DC bus at a DC bus voltage. The systems and methods can further include an inverter coupled to the DC bus for converting the DC power of the DC bus to an output AC power. The systems and methods can further include a control system configured to regulate the DC bus voltage of the DC bus to operate at a variable DC bus voltage setpoint. The control system can adjust the DC bus voltage setpoint based at least in part on the DC bus voltage and the output AC current of the inverter. | 06-03-2010 |
20110096579 | DC BUS VOLTAGE CONTROL FOR TWO STAGE SOLAR CONVERTER - Systems, methods, and apparatus for supplying AC power to an AC power grid from a DC power source, such as a photovoltaic (PV) array are disclosed. The systems and methods can include a converter coupled to the DC power source that provides DC power to a DC bus at a DC bus voltage. The systems and methods can further include an inverter coupled to the DC bus for converting the DC power of the DC bus to an output AC power. The systems and methods can further include a control system configured to regulate the DC bus voltage of the DC bus to operate at a variable DC bus voltage setpoint. The control system can adjust the DC bus voltage setpoint based at least in part on the DC bus voltage and the output AC current of the inverter. | 04-28-2011 |
20110205773 | METHOD AND SYSTEM TO ALLOW FOR HIGH DC SOURCE VOLTAGE WITH LOWER DC LINK VOLTAGE IN A TWO STAGE POWER CONVERTER - A system for supplying AC power from a DC power source, such as a photovoltaic array is disclosed. The system includes a converter and an inverter coupled by a DC link. Control methods and systems are provided to maintain the DC source voltage and the DC link voltage below the open-circuit voltage of the DC power source. During steady state conditions, the DC source voltage and the DC link voltage are maintained below the open-circuit voltage of the DC power source by controlling the output of the inverter. The DC link voltage is temporarily adjusted to allow for higher DC link transients when the DC power source is first coupled or re-coupled to the system. During conditions when the inverter is decoupled from the system, the converter is controlled to maintain the DC link voltage below the open-circuit voltage of the DC power source. | 08-25-2011 |
20120062044 | Methods and Systems for Operating a Two-Stage Power Converter - A power conversion system for providing power to an electrical grid is described. The system includes a boost converter coupled to a photovoltaic (PV) array and configured to control a PV array voltage. The system also includes an inverter coupled to the boost converter by at least one conductor and configured to regulate a voltage drop across the at least one conductor. The system also includes a system controller configured to control operation of the boost converter and the inverter. | 03-15-2012 |
20130030587 | SYSTEM AND METHOD FOR POWER CURTAILMENT IN A POWER NETWORK - A power curtailment system is electrically coupled to a power converter and configured to control the power converter to adjust output power of the power converter in response to a power curtailment requirement condition. The power curtailment system includes at least one sensor configured to measure at least one environmental factor in an environment of the power converter over time. The power curtailment system further includes a controller configured to adjust a power curve over time based on the at least one environmental factor and, upon the power curtailment requirement condition, control the power converter to provide an adjusted output power based on data from the power curve and the power curtailment requirement condition. | 01-31-2013 |
20130049363 | PERMANENT MAGNET MACHINE CONTROL SYSTEM - A permanent magnet (PM) machine system is provided having a PM machine and a controller in communication with the PM machine. The PM machine has a q-axis voltage feedback signal and a pullout torque that represents a peak torque that the PM machine generates. The controller includes a q-axis current regulator that produces a commanded q-axis voltage that is supplied to the PM machine. The controller also includes at least one control logic for monitoring the q-axis voltage feedback signal of the PM machine. | 02-28-2013 |
20130076134 | Power Converter Islanding Detection - A power converter including a detection apparatus and method for detecting an islanding condition based on measurements of one or more currents and voltages within the power converter provided to a current regulator to generate a signal that is provided in a positive feedback loop and is indicative of an islanding condition. | 03-28-2013 |
20130076150 | Acoustic Noise Modification in Power Converters - A boost converter including two or more inductors coupled to an input DC power source and to switches that can each be modulated with a modulation signal to control the output power of the boost converter. Two or more of the modulation signals have a relative phase other than 360° divided by the number of switches. | 03-28-2013 |
20130076327 | POWER SYSTEM JUNCTION TEMPERATURE CONTROL - An electrical power generating system including a power generating device, a power converter connected to the power generating device, and an electrical controller connected to the power converter. The electrical controller is configured to limit a peak junction temperature of the power converter by applying at least one junction temperature derating function. | 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 |
20130077372 | METHODS AND SYSTEMS FOR OPERATING A POWER CONVERTER - A power conversion system for providing power to an electrical grid is described. The power conversion system includes a power converter coupled to a photovoltaic (PV) array and configured to control a PV array voltage. The power conversion system also includes a system controller communicatively coupled to the power converter and configured to select from a first reduced power operating point and a second reduced power operating point when a power available from the PV array is greater than a rated output power of the power conversion system. | 03-28-2013 |
20130088080 | Dynamic Break and Distortion Filter - Systems, methods, and apparatus for providing a dynamic break and distortion filter. In one embodiment, an apparatus can include an inverter providing alternating current (AC) power at one of a first and second chopping frequency and a filter. The filter can include an input port receiving the AC power and an output port providing output power by selectively passing the AC power from the input port to the output port. The filter may further include an inductor electrically connected to one of the input port and output port and a capacitor electrically connected to the inductor and to a resistor, wherein current does not substantially flow through the inductor and capacitor at the first chopping frequency and does substantially flow through the inductor and capacitor at the second chopping frequency, and wherein the AC power with the second chopping frequency is dissipated in the resistor. | 04-11-2013 |
20130107587 | PHOTOVOLTAIC ARRAY EMULATORS | 05-02-2013 |
20130107594 | METHODS AND SYSTEMS FOR OPERATING A POWER CONVERSION SYSTEM | 05-02-2013 |
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 |
20130155732 | METHODS AND SYSTEMS FOR OPERATING A POWER CONVERTER - A power conversion system for providing power to an electrical grid is described. The power conversion system includes a power converter coupled to a power source and the electrical grid. The power conversion system also includes a converter controller coupled to the power converter and configured to control operation of the power converter to actively cancel harmonic current received at the power converter from the electrical grid. | 06-20-2013 |
20130176752 | ADAPTIVE POWER CONVERSION SYSTEM - A power converter includes a plurality of switches electrically coupled to each other for converting input power to output power. Each of the switches is sufficiently isolated to protect adjacent switches upon failure of one or more switches. The power converter also includes a controller for reconfiguring operation of the switches to provide at least a partial operating mode upon a switch failure. | 07-11-2013 |
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 |
20130274946 | METHODS AND SYSTEMS FOR CONTROLLING A POWER PLANT - A power plant for providing alternating current (AC) power to an electrical grid is described. The power plant includes a first power converter couplable to the electrical grid at a first point of interconnection for receiving power from a first power source. The power plant also includes a second power converter couplable to the electrical grid at the first point of interconnection for receiving power from a second power source. The power plant also includes at least one sensor for measuring a voltage level at the first point of interconnection and a central controller for coordinating operation of the first power converter and the second power converter to determine an impedance of the electrical grid. | 10-17-2013 |
20140020444 | METHODS AND SYSTEMS FOR USE IN MONITORING A TACHOMETER - Methods and systems for use in monitoring a tachometer are provided. A method for use in correcting a signal from a tachometer coupled to a rotating shaft in a wind turbine includes receiving a raw tachometer signal from the tachometer coupled to a wind turbine shaft, the signal indicating the speed and/or angular position of the shaft, determining a cyclic error exists in the raw tachometer signal, and providing a corrective signal to adjust a torque within the wind turbine using the determined cyclic error. | 01-23-2014 |
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 |
20140159677 | SYSTEM AND METHOD FOR OPTIMIZATION OF DUAL BRIDGE DOUBLY FED INDUCTION GENERATOR (DFIG) - The present subject matter is directed to systems and methods for improving reliability of dual bridge doubly fed induction generators (DFIGs) by reducing the number of required components in the converters associated with such DFIGs. A converter is constructed using a pair of current conducting bridges wherein one of the current conducting bridges is controlled and the second is not controlled. The uncontrolled bridge may correspond to a pair of diodes while the controlled bridge may correspond to a pair of transistors, in particular, a pair of IGBT transistors. | 06-12-2014 |
20140204643 | CONTROL SCHEME FOR CURRENT BALANCING BETWEEN PARALLEL BRIDGE CIRCUITS - A control scheme for reducing current imbalance between parallel bridge circuits in a power converter system is provided. The power converter can include a plurality of bridge circuits coupled in parallel to increase the output power capability of the power system. The parallel bridge circuits can be controlled pursuant to a control scheme for reducing current imbalance between the parallel bridge circuits. In particular, a pulse test can be performed in which a pulse is applied to each of the plurality of bridge circuits. The switch timing of the switching elements responsive to the pulse can be measured and analyzed to determine a timing difference adjustment for one or more of the switching elements of the plurality of bridge circuits. The timing difference adjustment can be stored and used to adjust all subsequent switching events in the parallel bridge circuits. | 07-24-2014 |
20140247021 | METHOD AND SYSTEM FOR CONTROLLING SWITCHING FREQUENCY OF A DOUBLY-FED INDUCTION GENERATOR (DFIG) - The present subject matter is directed to systems and methods for controlling variable speed generators, particularly converters associated with doubly-fed induction generators (DFIG) to permit use of harmonic attenuating filters that are generally smaller and less costly than previous similar filters. The subject matter provides for controlling line-side and rotor-side converters in such a manner that the frequencies generated by the converters are interleaved in a manner that the filters see a higher switching frequency and thus may be designed based on those higher frequencies, thereby requiring smaller and less expensive components. | 09-04-2014 |
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 |
20140354244 | CONNECTION FOR IMPROVED CURRENT BALANCING IN A PARALLEL BRIDGE POWER CONVERTER - A power generation system may include a generator and a power converter coupled to the generator. The power converter may include a plurality of bridge circuits coupled in parallel. Each bridge circuit may be coupled to an inductor. In addition, the power converter may include a plurality of parallel shorting devices. The shorting devices may be coupled to the bridge circuits such that an impedance of the inductors is effectively coupled between the shorting devices and the generator. | 12-04-2014 |