Systems and methods for dynamic power compensation, such as dynamic power compensation using synchrophasors
First Claim
1. A solar power inverter, comprising:
- a direct current (DC) input component configured to receive DC produced by one or more photovoltaic cells;
a power generation component configured to generate alternating current (AC) from the DC produced by the one or more photovoltaic cells, the generated AC having a real power component and a reactive power component;
an AC output component configured to output generated AC, wherein the AC output component is electrically coupleable to at least one of an electrical power grid and a load;
a data input/output component configured to receive signals indicating electrical power grid synchrophasors, wherein the electrical power grid synchrophasors describe characteristics of AC transmitted by the electrical power grid at a remotely located substation, and wherein electrical power grid synchrophasors are measured at multiple control areas of the electrical power grid, wherein the solar power inverter is associated with a particular control area, and wherein the controller is further configured to identify the electrical power grid synchrophasors corresponding to the particular control area with which the solar power inverter is associated;
a phasor measurement unit configured to generate inverter synchrophasors, wherein the inverter synchrophasors describe characteristics of AC electrically proximate to the AC output component; and
a controller configured to—
compare the electrical power grid synchrophasors and the inverter synchrophasors; and
based upon the comparison, cause the power generation component to vary the reactive power component of the generated AC.
1 Assignment
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Accused Products
Abstract
An electrical power generation system, such as a solar power inverter, can provide dynamic real-time power compensation, so as to mitigate the effects of voltage sags and swells (e.g., on a utility grid) and thereby provide voltage support functionality to a local grid. The electrical power generation system can do so by receiving first synchrophasor measurements that are taken at a point on the utility grid and transmitted to the electrical power generation system and by taking second synchrophasor measurements. The first and second synchrophasors indicate voltage magnitude and frequency of the alternating current (AC) at their respective measurement points. The electrical power generation system can compare the first synchrophasors with the second synchrophasors and based upon the comparison, vary the power factor of the power the electrical power generation system generates (e.g., by either supplying or absorbing reactive power).
20 Citations
11 Claims
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1. A solar power inverter, comprising:
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a direct current (DC) input component configured to receive DC produced by one or more photovoltaic cells; a power generation component configured to generate alternating current (AC) from the DC produced by the one or more photovoltaic cells, the generated AC having a real power component and a reactive power component; an AC output component configured to output generated AC, wherein the AC output component is electrically coupleable to at least one of an electrical power grid and a load; a data input/output component configured to receive signals indicating electrical power grid synchrophasors, wherein the electrical power grid synchrophasors describe characteristics of AC transmitted by the electrical power grid at a remotely located substation, and wherein electrical power grid synchrophasors are measured at multiple control areas of the electrical power grid, wherein the solar power inverter is associated with a particular control area, and wherein the controller is further configured to identify the electrical power grid synchrophasors corresponding to the particular control area with which the solar power inverter is associated; a phasor measurement unit configured to generate inverter synchrophasors, wherein the inverter synchrophasors describe characteristics of AC electrically proximate to the AC output component; and a controller configured to— compare the electrical power grid synchrophasors and the inverter synchrophasors; and based upon the comparison, cause the power generation component to vary the reactive power component of the generated AC. - View Dependent Claims (2, 3, 4, 5)
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6. A power generation apparatus electrically coupleable to at least one of an electric power grid transmitting alternating current (AC) and a load, the power generation apparatus comprising:
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a power generation component configured to generate AC, the generated AC having a reactive power component and a real power component; and a controller configured to— receive first synchrophasor measurements of the AC transmitted by the electrical power grid at a remotely located substation, wherein synchrophasor measurements are taken at multiple control areas of the electrical power grid, wherein the power generation apparatus is associated with a particular control area, and wherein the controller is further configured to identify a subset of the synchrophasor measurements taken at the particular control area with which the power generation apparatus is associated; receive second synchrophasor measurements of AC generated at the power generation component; compare the first synchrophasor measurements with the second synchrophasor measurements; and based upon the comparison, control the power generation component to vary one or both of the real power component and/or the reactive power component of the generated AC. - View Dependent Claims (7, 8, 9, 10, 11)
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Specification