Method for Controlling Individual Photovoltaic Modules of a Photovoltaic System
First Claim
1. A method for controlling individual PV modules of a PV system, the method comprising the steps of:
- a) providing a PV string that includes a plurality of PV modules;
b) providing a control device that includes a corresponding plurality of control units;
c) associating one control unit with a corresponding one PV module of the plurality of PV modules, wherein each control unit measures the voltage curve and/or the current of the corresponding one PV module;
d) if the voltage of the one PV module increases from an operating voltage to an open-circuit voltage, or the voltage decreases from the open-circuit voltage to the operating voltage, or the current in the string drops below a reference value, activating the control unit of the one PV module, wherein activation of the control unit results in a drop of the overall voltage of the at least one string to a value that is not hazardous to humans.
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Abstract
A method for switching photovoltaic (PV) modules in a PV system to a safe state in the case of a hazard is described. Control units, each one associated with a corresponding one PV module, measure the voltage profile and/or the current of each associated PV module. Should the voltage of a PV module increase from the operating voltage to the idle voltage or, conversely, drop from the idle voltage to the operating voltage, or the current in the phase fall below a reference value, then the control unit associated with the PV module is activated. When activated, the PV module is either isolated from the phase on at least one connection side, with the result of at least one isolation location having a capacitor remaining connected in parallel with it, or a low-impedance load is connected in parallel to the PV module in a clocked fashion.
29 Citations
8 Claims
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1. A method for controlling individual PV modules of a PV system, the method comprising the steps of:
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a) providing a PV string that includes a plurality of PV modules; b) providing a control device that includes a corresponding plurality of control units; c) associating one control unit with a corresponding one PV module of the plurality of PV modules, wherein each control unit measures the voltage curve and/or the current of the corresponding one PV module; d) if the voltage of the one PV module increases from an operating voltage to an open-circuit voltage, or the voltage decreases from the open-circuit voltage to the operating voltage, or the current in the string drops below a reference value, activating the control unit of the one PV module, wherein activation of the control unit results in a drop of the overall voltage of the at least one string to a value that is not hazardous to humans. - View Dependent Claims (2, 3, 6, 7, 8)
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4. The method of claim 4, further comprising the step of:
e) when energizing the load that is connected in parallel with the at least one PV module, varying the clocking such that the average value of the time during which the load is connected to the PV module increases steadily and ultimately reaches a constant value, and when de-energizing the load, varying the clocking such that the average value decreases steadily and ultimately goes to zero, thereby preventing damage due to current peaks to an inverter of the at least one PV module. - View Dependent Claims (5)
Specification