Dual use photovoltaic system
First Claim
1. A system for providing power from a direct current (DC) source to the power grid, the system comprising:
- a first inverter with an input and an output, wherein the input is adapted to connect to the DC source;
a first switch disposed between the output and the power grid;
a second inverter with a DC terminal and an alternating current (AC) terminal, wherein the AC terminal is adapted to connect in parallel with the output of the first inverter;
a battery adapted to connect to the DC terminal of the second inverter; and
a second switch connected between the DC terminal of the second inverter and the input of the first inverter, wherein the second switch also operatively connects the DC source to the battery.
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Accused Products
Abstract
A system for providing power from a direct current (DC) source to the power grid. The system includes a first inverter with an input and an output. The input is adapted to connect to the DC source. A first switch disposed between the output and the power grid. A second inverter with a DC terminal and an AC terminal, the AC terminal is adapted to connect in parallel with the output of the first inverter. A battery adapted to connect to the DC terminal of the second inverter. A second switch connected between the DC terminal of the second inverter and the input of the first inverter. The second switch also operatively connects the DC source to the battery. The system may further include a charging circuit adapted to be disposed between the input and the DC terminal and a load adapted to connect to the output.
379 Citations
20 Claims
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1. A system for providing power from a direct current (DC) source to the power grid, the system comprising:
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a first inverter with an input and an output, wherein the input is adapted to connect to the DC source; a first switch disposed between the output and the power grid; a second inverter with a DC terminal and an alternating current (AC) terminal, wherein the AC terminal is adapted to connect in parallel with the output of the first inverter; a battery adapted to connect to the DC terminal of the second inverter; and a second switch connected between the DC terminal of the second inverter and the input of the first inverter, wherein the second switch also operatively connects the DC source to the battery. - View Dependent Claims (2, 3)
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4. A method comprising:
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during off-grid operation, of a hybrid photovoltaic system, when a power grid is not supplying power, sensing absence of the power grid, the hybrid photovoltaic system including a first inverter with an input and an output, a direct current (DC) source connected to the input, a first switch disposed between the output and the power grid, a second inverter with a DC terminal and a AC terminal, the AC terminal being connected in parallel with the output, a battery adapted to connect to the DC terminal, a load connected to the output and the AC terminal, and a second switch disposed between the DC terminal and the input; disconnecting the power grid from the output and the AC terminal with the first switch, wherein the disconnecting is based on the sensing; connecting the DC source to the DC terminal with the second switch, thereby shunting the input of the first inverter with the DC terminal of the second inverter; converting power on the DC terminal of the second inverter to an output power on the AC terminal of the second inverter, wherein the output power provides a local grid to the load and the output; and controlling voltage of the input of the first inverter to a voltage value based on the output power of the second inverter. - View Dependent Claims (5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16)
a frequency, a phase angle, a voltage or a current.
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13. The method of claim 4, the method comprising:
during on-grid operation when power grid is available; sensing presence of the power grid; disconnecting the DC source from the DC terminal of the second inverter with the second switch based on the sensing; connecting the output and the AC terminal to the power grid with the first switch; and converting power on the input of the first inverter to an output power on the output of the first inverter.
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14. The method of claim 13, further comprising:
supplying the output power by the first inverter to both the power grid and the load.
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15. The method of claim 13, further comprising:
converting power at the AC terminal of the second inverter to a power at the DC terminal of the second inverter.
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16. The method of claim 15, further comprising:
charging the battery from the power.
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17. A power system comprising:
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a power inverter; a backup inverter, wherein outputs of the power inverter and outputs of the backup inverter are interconnected; a DC source; and a switch adapted to interconnect inputs of the power inverter and inputs of the backup inverter and to connect the inputs of the power inverter and the inputs of the backup inverter to the DC source when a power grid is not available, and when the power grid is available the switch is adapted to disconnect the inputs of the backup inverter from the DC source. - View Dependent Claims (18, 19, 20)
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Specification