Feedback based photovoltaic conversion systems
DCFirst Claim
1. A grid powering solar power system comprising:
- a plurality of DC power sources;
a plurality of power converters, each of said power converters coupled to a different, corresponding one or more of said plurality of DC power sources, wherein each power converter comprises a boost and buck power conversion circuit;
converter functionality control circuitry that, during operation of said grid powering solar power system to produce operational power that is sufficient to power the grid, is capable of alternating between;
maximum power point tracking,overcurrent boundary condition control of converter DC output at other than maximum power point, andovervoltage boundary condition control of said converter DC output at other than said maximum power point, andwherein each of the plurality of power converters is connected in series to at least one other power converter of the plurality of power converters.
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Abstract
Different systems to achieve solar power conversion are provided in at least three different general aspects, with circuitry that can be used to harvest maximum power from a solar source or strings of panels for DC or AC use, perhaps for transfer to a power grid three aspects can exist perhaps independently and relate to: 1) electrical power conversion in a multimodal manner, 2) alternating between differing processes such as by an alternative mode photovoltaic power converter functionality control, and 3) systems that can achieve efficiencies in conversion that are extraordinarily high compared to traditional through substantially power isomorphic photovoltaic DC-DC power conversion capability that can achieve 99.2% efficiency or even only wire transmission losses. Switchmode impedance conversion circuits may have pairs of photovoltaic power series switch elements and pairs of photovoltaic power shunt switch elements.
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Citations
33 Claims
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1. A grid powering solar power system comprising:
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a plurality of DC power sources; a plurality of power converters, each of said power converters coupled to a different, corresponding one or more of said plurality of DC power sources, wherein each power converter comprises a boost and buck power conversion circuit; converter functionality control circuitry that, during operation of said grid powering solar power system to produce operational power that is sufficient to power the grid, is capable of alternating between; maximum power point tracking, overcurrent boundary condition control of converter DC output at other than maximum power point, and overvoltage boundary condition control of said converter DC output at other than said maximum power point, and wherein each of the plurality of power converters is connected in series to at least one other power converter of the plurality of power converters.
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2. The grid powering solar power system of claim 1, wherein each of said DC power sources comprises at least one solar panel.
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3. The grid powering solar power system of claim 1, wherein each of said DC power sources comprises a plurality of solar cells connected in series.
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4. The grid powering solar power system of claim 1 wherein each of said DC power sources comprises a plurality of solar cells connected in parallel.
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5. The grid powering solar power system of claim 1 wherein each of said DC power sources comprises a plurality of solar cells connected in both series and parallel.
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6. The grid powering solar power system of claim 1 wherein each of said DC power sources comprises a plurality of solar panels connected in series.
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7. The grid powering solar power system of claim 1 wherein each of said power converters converts at greater than 98% efficiency.
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8. The grid powering solar power system of claim 1 wherein each of said power converters converts using synchronous duty cycle switching.
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9. The grid powering solar power system of claim 1 wherein each of said power converters comprises a parallel capacitance configured between a boost part of said boost and buck power conversion circuit and a buck part of said boost and buck power conversion circuit.
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10. The grid powering solar power system of claim 1 wherein each of said power converters comprises a series inductance configured between a boost part of said boost and buck power conversion circuit and a buck part of said boost and buck power conversion circuit.
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11. A grid powering solar power system comprising:
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a plurality of DC power sources; a plurality of power converters, each of said power converters coupled to a different, corresponding one or more of said plurality of DC power sources, wherein each power converter comprises a boost and buck power conversion circuit; converter functionality control circuitry that, during operation of said grid powering solar power system to produce operational power that is sufficient to power the grid, is capable of alternating between; maximum power point tracking, and overcurrent boundary condition control of converter DC output at other than maximum power point, and wherein each of the plurality of power converters is connected in series to at least one other power converter of the plurality of power converters.
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12. The grid powering solar power system of claim 11 wherein each of said DC power sources comprises at least one solar panel.
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13. The grid powering solar power system of claim 11 wherein each of said DC power sources comprises a plurality of solar cells connected in series.
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14. The grid powering solar power system of claim 11 wherein each of said DC power sources comprises a plurality of solar cells connected in parallel.
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15. The grid powering solar power system of claim 11 wherein each of said DC power sources comprises a plurality of solar cells connected in both series and parallel.
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16. The grid powering solar power system of claim 11 wherein each of said DC power sources comprises a plurality of solar panels connected in series.
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17. The grid powering solar power system of claim 11 wherein each of said power converters converts at greater than 98% efficiency.
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18. The grid powering solar power system of claim 11 wherein each of said power converters converts using synchronous duty cycle switching.
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19. The grid powering solar power system of claim 11 wherein each of said power converters comprises a parallel capacitance configured between a boost part of said boost and buck power conversion circuit and a buck part of said boost and buck power conversion circuit.
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20. The grid powering solar power system of claim 11 wherein each of said power converters comprises a series inductance configured between a boost part of said boost and buck power conversion circuit and a buck part of said boost and buck power conversion circuit.
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21. A grid powering solar power system comprising:
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a plurality of DC power sources; a plurality of power converters, each of said power converters coupled to a different, corresponding one of said plurality of DC power sources, wherein each power converter comprises a boost and buck power conversion circuit; converter functionality control circuitry that, during operation of said grid powering solar power system to produce operational power that is sufficient to power the grid, is capable of alternating between; maximum power point tracking, and overvoltage boundary condition control of converter DC output at other than maximum power point, and wherein each of the plurality of power converters is connected in series to at least one other power converter of the plurality of power converters.
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22. The grid powering solar power system of claim 21, wherein each of said DC power sources comprises at least one solar panel.
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23. The grid powering solar power system of claim 21 wherein each of said DC power sources comprises a plurality of solar cells connected in series.
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24. The grid powering solar power system of claim 21 wherein each of said DC power sources comprises a plurality of solar cells connected in parallel.
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25. The grid powering solar power system of claim 21 wherein each of said DC power sources comprises a plurality of solar cells connected in both series and parallel.
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26. The grid powering solar power system of claim 21 wherein each of said DC power sources comprises a plurality of solar panels connected in series.
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27. The grid powering solar power system of claim 21 wherein each of said power converters converts at greater than 98% efficiency.
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28. The grid powering solar power system of claim 21 wherein each of said power converters converts using synchronous duty cycle switching.
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29. The grid powering solar power system of claim 21 wherein each of said power converters comprises a parallel capacitance configured between a boost part of said boost and buck power conversion circuit and a buck part of said boost and buck power conversion circuit.
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30. The grid powering solar power system of claim 21 wherein each of said power converters comprises a series inductance configured between a boost part of said boost and buck power conversion circuit and a buck part of said boost and buck power conversion circuit.
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31. The grid powering solar power system of claim 1 wherein, during said overvoltage boundary condition control and said overcurrent boundary condition control, said operational power exhibits a proportionality between voltage and current.
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32. The grid powering solar power system of claim 11 wherein, during said overcurrent boundary condition control, said operational power exhibits a proportionality between voltage and current.
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33. The grid powering solar power system of claim 21 wherein, during said overvoltage boundary condition control, said operational power exhibits a proportionality between voltage and current.
Specification