Patents Assigned to SolarBridge Technologies, Inc.
-
Patent number: 8929094Abstract: An electronics module docking system includes docking member removably coupled to a photovoltaic module. The docking system includes a first connector port electrically coupled to one or more photovoltaic cells of the photovoltaic module. The photovoltaic module is selectively coupleable to the docking member. The docking system includes a housing to enclose an electronics module. The housing may include second connector port that is selectively engageable to the power electronics module. The power electronics module and the photovoltaic cells are electrically coupled to one another upon selective engagement of the connector ports. The inverter housing is receivable by and removably coupleable to the docking member allowing the inverter housing to be removably coupleable to the photovoltaic module.Type: GrantFiled: June 11, 2013Date of Patent: January 6, 2015Assignee: SolarBridge Technologies, Inc.Inventors: Marco A. Marroquin, Stephen P. Wurmlinger, Thomas P. Parker, Robert S. Balog
-
Patent number: 8922185Abstract: A device, system, and method for global maximum power point tracking comprises monitoring an output power of a DC power source while executing a maximum power point tracking algorithm and adjusting a maximum power point tracking command signal in response to the output power being less than a reference output power. The command signal is adjusted until the output power exceeds a previous output power by a reference amount. The command signal may be a voltage command signal, a current command signal, an impedance command signal, a duty ratio command signal, or the like.Type: GrantFiled: December 13, 2011Date of Patent: December 30, 2014Assignee: SolarBridge Technologies, Inc.Inventors: Jonathan Ehlmann, Daniel Blair, Eric Martina, Patrick Chapman, Brian Kuhn
-
Patent number: 8860242Abstract: In some embodiments, a system includes a power system coupled to a power bus, and a power line communication (PLC) gateway coupled in series with the power bus. In other embodiments, a system includes first and second power circuits coupled in series with a power bus, and first and second power-line communication circuits coupled in series with the power bus. In additional embodiments, a system includes a power converter coupled to a power bus and having one or more switching frequencies, and a power-line communication circuit coupled to the power bus and having one or more communication frequencies, where at least one of the switching frequencies is substantially greater than at least one of the communication frequencies.Type: GrantFiled: October 19, 2010Date of Patent: October 14, 2014Assignee: SolarBridge Technologies, Inc.Inventors: Henry F. Pruett, Vincenzo DiTommaso, Ravindranath Naiknaware, Jorell A. Olson
-
Patent number: 8842454Abstract: An apparatus for delivering AC power to an AC load may include a plurality of inverters to receive direct current (DC) power from a respective DC power source and respectively provide AC power to an AC load. The apparatus may further include a first controller to generate a first control signal based on total AC current and total AC voltage being delivered to the AC load by the plurality of inverters. The apparatus may further include a plurality of secondary controllers to each receive the first control signal and each produce a respective secondary control signal based on the first control signal. The respective secondary control signal for each of the plurality of secondary controllers is configured to control a corresponding one of the plurality of inverters to provide a portion of the AC power.Type: GrantFiled: February 17, 2011Date of Patent: September 23, 2014Assignee: SolarBridge Technologies, Inc.Inventors: Brian Johnson, Philip Krein, Alexander Gray, Patrick L. Chapman
-
Patent number: 8823356Abstract: Processes, machines, and articles of manufacture that may serve to enable the detection or determination of alternating line voltages from an alternating power source, such as the power grid, are provided. This automatic sensing may be useful when connections are made to the power grid, such that when connections are made, the connections may be configured to be compatible with the available power source. This automatic sensing may also be useful if power sources change characteristics over time or if devices may be connected to different power sources over time.Type: GrantFiled: March 21, 2011Date of Patent: September 2, 2014Assignee: SolarBridge Technologies, Inc.Inventor: Patrick L. Chapman
-
Patent number: 8824178Abstract: A power converter may include a first power path having no energy storage and a second power path having substantial energy storage. The first and second power paths have first and second input waveforms that are complementary with respect to a source waveform. The first power path, which may be more efficient than the second path, may transfer as much power as possible from the input to the output. The energy storage enables the second power path to make up the difference between the power available from the source and the power drawn by the first power path, and to make up the difference between the power demanded by a load and the power supplied by the first path.Type: GrantFiled: December 30, 2010Date of Patent: September 2, 2014Assignee: SolarBridge Technologies, Inc.Inventors: Gary B. Baker, Robert Batten, Keith Slavin, Triet Tu Le, Vincenzo DiTommaso, Ravindranath Naiknaware
-
Patent number: 8817510Abstract: An apparatus and method for controlling a DC-to-AC inverter is disclosed. The DC-to-AC inverter may be configured to convert DC power received from an alternative energy source to AC power for supplying an AC grid or load. The inverter may determine whether the power presently supplied by the alternative energy source is less than a predetermined amount of power and, if so, disable an output converter of the inverter. Additionally, the inverter may predict the voltage of a DC bus of the inverter at a future point in time and, if the predicted DC bus voltage is greater than a predetermined maximum DC bus voltage, enable the output converter to transfer energy from the DC bus to the AC grid to reduce the DC bus voltage.Type: GrantFiled: October 2, 2012Date of Patent: August 26, 2014Assignee: SolarBridge Technologies, Inc.Inventors: Trishan Esram, Alexander Gray, Eric Martina, Patrick Chapman
-
Patent number: 8796884Abstract: In one embodiment, a power conversion system includes a controller to provide power control to a converter, and a distortion mitigation circuit. In another embodiment, a system includes a converter to transfer power between a power source and a load having fluctuating power demand, and a controller to provide power control, where the controller may selectively disable the power control. In another embodiment, a power conversion system includes a controller to generate a drive signal to provide power control to a power path in response to a sense signal from the power path, where the sense signal is taken from other than the input of the power path, or the drive signal is applied to the power path at other than a first power stage.Type: GrantFiled: February 10, 2009Date of Patent: August 5, 2014Assignee: SolarBridge Technologies, Inc.Inventors: Ravindranath Naiknaware, Vincenzo DiTommaso, Triet Tu Le, Robert D. Batten, Terri Shreeve Fiez
-
Patent number: 8767421Abstract: Processes, machines, and articles of manufacture that may management power conversion as provided. This may include circuit topology or management that serves to improve power conversion efficiency from a DC waveform to an AC waveform. This circuit topology or management may include considering and managing the voltage across a DC-link capacitive bus and the phase angle output of an AC waveform in order to influence or improve power conversion characteristics or efficiency.Type: GrantFiled: June 16, 2011Date of Patent: July 1, 2014Assignee: SolarBridge Technologies, Inc.Inventor: Patrick L. Chapman
-
Publication number: 20140168927Abstract: Processes, systems, devices, and articles of manufacture are provided. Each may include adapting micro-inverters initially configured for frame-mounting to mounting on a frameless solar panel. This securement may include using an adaptive clamp or several adaptive clamps secured to a micro-inverter or its components, and using compressive forces applied directly to the solar panel to secure the adaptive clamp and the components to the solar panel. The clamps can also include compressive spacers and safeties for managing the compressive forces exerted on the solar panels. Friction zones may also be used for managing slipping between the clamp and the solar panel during or after installation. Adjustments to the clamps may be carried out through various means and by changing the physical size of the clamps themselves.Type: ApplicationFiled: January 28, 2013Publication date: June 19, 2014Applicant: SolarBridge Technologies, Inc.Inventors: John Morris, Phillip Charles Gilchrist
-
Patent number: 8754627Abstract: A method for tracking a power point for a power source includes calculating voltage and current errors for the power source, selecting either the voltage error or the current error, and controlling the power converter with a first control loop in response to the selected error. The voltage and current errors may be calculated in response to voltage and current targets, respectively, which may be calculated by a second control loop that implements an MPPT algorithm. The second control loop may calculate the voltage and current targets in response to which error the first control loop selects. A method for tracking a power point for a power source having multiple local power maxima includes measuring the individual voltage across one or more series-connected power elements in the power source, and controlling the power in response to the overall voltage and current as well as the individual voltage.Type: GrantFiled: April 20, 2011Date of Patent: June 17, 2014Assignee: SolarBridge Technologies, Inc.Inventor: Triet Tu Le
-
Patent number: 8737093Abstract: A power converter is disclosed including a switching converter having a switching node, a first quasi-resonant multiplier stage having a resonant input coupled to the switching node, and a second quasi-resonant multiplier stage having a resonant input coupled to the switching node. In another embodiment, a power converter includes a switching converter having a switching node, a first quasi-resonant multiplier stage having a boost input coupled to the switching node, and a first clamp coupled to the first multiplier stage.Type: GrantFiled: August 2, 2011Date of Patent: May 27, 2014Assignee: SolarBridge Technologies, Inc.Inventors: Gary B. Baker, Ravindranath Naiknaware, Triet Tu Le
-
Patent number: 8737100Abstract: A method and apparatus for controlling an inverter includes operating the inverter in a one of a normal run mode or a pulse mode depending on one or more criteria. When operating in the pulse mode, the inverter generates a sinusoidal output pulse waveform including a plurality of pulses having a determined pulse width. The pulse width is less than a half-wave period of a full-cycle sinusoidal waveform and may be determined as function of, for example, the output power of the inverter, a grid voltage, and/or other criteria.Type: GrantFiled: October 9, 2012Date of Patent: May 27, 2014Assignee: SolarBridge Technologies, Inc.Inventors: Patrick L. Chapman, Philip T. Krein
-
Publication number: 20140133197Abstract: A power inverter may include a transformer serving as an isolation barrier. The power inverter may include a first controller on one side of the isolation barrier. The first controller may encode the frequency of an input voltage of the transformer with one or more operating conditions of a direct current power supply electrically coupled to the inverter. As second controller on the other side of the isolation barrier may determine a frequency associated with an output voltage of the transformer. The second controller may decode the frequency associated with the output voltage of the transformer to determine the encoded operating conditions.Type: ApplicationFiled: January 20, 2014Publication date: May 15, 2014Applicant: SolarBridge Technologies, Inc.Inventor: Patrick L. Chapman
-
Patent number: 8634216Abstract: A power inverter may include a transformer serving as an isolation barrier. The power inverter may include a first controller on one side of the isolation barrier. The first controller may encode the frequency of an input voltage of the transformer with one or more operating conditions of a direct current power supply electrically coupled to the inverter. As second controller on the other side of the isolation barrier may determine a frequency associated with an output voltage of the transformer. The second controller may decode the frequency associated with the output voltage of the transformer to determine the encoded operating conditions.Type: GrantFiled: July 8, 2010Date of Patent: January 21, 2014Assignee: SolarBridge Technologies, Inc.Inventor: Patrick L. Chapman
-
Patent number: 8624561Abstract: A power conversion system may include a controller to cause a power stage to control the flow of power to or from an energy storage device in response to a dynamic reference. The flow of power to or from the energy storage device may be controlled at a substantially higher speed than power fluctuations in a power source or load. In a power conversion system, a model including an energy storage device may be generated in real-time, and a condition of the energy storage device may be determined in response to the model.Type: GrantFiled: November 5, 2010Date of Patent: January 7, 2014Assignee: SolarBridge Technologies, Inc.Inventor: Keith Slavin
-
Patent number: 8611107Abstract: A method for controlling an multi-stage inverter comprises controlling an input converter of the multi-stage inverter with an input controller and controlling an output converter of the multi-stage inverter with an output controller separate from the input controller. The input controller and output controller may be galvanically isolated. Additionally, the method may include communicating data between the input controller and the output controller over a power bus of the multi-stage inverter.Type: GrantFiled: April 27, 2011Date of Patent: December 17, 2013Assignee: SolarBridge Technologies, Inc.Inventors: Patrick Chapman, Andrew O'Connell, Timothy Sams, Eric Martina
-
Patent number: 8599587Abstract: 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.Type: GrantFiled: July 11, 2011Date of Patent: December 3, 2013Assignee: SolarBridge Technologies, Inc.Inventors: Patrick Chapman, William R. Van Dell
-
Publication number: 20130308345Abstract: Power conversion methods, systems, articles of manufacture, and devices are provided. The power conversion may include converting between direct current and alternating current wherein switching losses associated with latent electrical charges are reduced. Current sensing may be low-side bus reference. Solid-state implementations, code implementations, and mixed implementations are provided.Type: ApplicationFiled: July 23, 2013Publication date: November 21, 2013Applicant: SolarBridge Technologies, Inc.Inventors: Alexander Gray, Patrick L. Chapman
-
Patent number: 8508964Abstract: Power conversion methods, systems, articles of manufacture, and devices are provided. The power conversion may include converting between direct current and alternating current wherein switching losses associated with latent electrical charges are reduced. Current sensing may be low-side bus reference. Solid-state implementations, code implementations, and mixed implementations are provided.Type: GrantFiled: December 3, 2010Date of Patent: August 13, 2013Assignee: SolarBridge Technologies, Inc.Inventors: Alexander Gray, Patrick L. Chapman