Abstract: A photovoltaic system, method and apparatus are disclosed. In an exemplary embodiment, the system includes a photovoltaic array, a distribution system that distributes power within a premises of a demand-side energy consumer, an inverter coupled to the distribution system that is configured to convert DC power from the photovoltaic array to AC power and apply the AC power to the distribution system, a damping portion configured to damp high frequency voltages derived from the inverter, and trapping circuitry coupled to the damping portion that is configured to reduce a level of low frequency current traveling through the damping portion.

Abstract: System, methods and apparatus for coupling photovoltaic arrays are disclosed. The apparatus may include a first input adapted to couple to a neutral line of a first photovoltaic array; a second input adapted to couple to a neutral line of a second photovoltaic array; a contactor configured to switchably couple the neutral line of a first photovoltaic array to the a neutral line of a second photovoltaic array, the contactor being controllable by an electric control signal; and a control input adapted to couple the switch to a remotely located controller so as to enable the controller to control the first switch by sending the electric control signal.

Abstract: A photovoltaic system, method and apparatus are disclosed. In an exemplary embodiment, the system includes a power converter configured to convert power from one form to another form, and an interface portion adapted to couple to the power converter, a first photovoltaic array, a second photovoltaic array, and a third photovoltaic array. In variations, the interface portion is configured to modulate an application of a voltage from the first photovoltaic array to the second and third photovoltaic arrays so as to adjust a voltage applied from the three photovoltaic arrays to the power converter.

Abstract: A photovoltaic system has a power converter connected by power rails to a plurality of photovoltaic strings, each string has serially connected photovoltaic panels and switches. The switches divide each string into sections, and the strings are distributed in electrical parallel paths over a plurality of arrays with one section per string in each array. A first set of strings to be brought online with the power converter is initialized. A drive signal is sent to switches in the initial set of strings to couple the sections in each string of the initial set so that the set of strings come online with the power converter providing voltage and current to the power converter.

Abstract: A system, method, and apparatus for managing an application of power from photovoltaic arrays to power conversion components. The method may include arranging a first array and a second array in series, coupling a positive terminal of a first array to the power conversion component, coupling a negative terminal of a second array to the power conversion component, and modulating an amount of current flowing between a negative terminal of the first array and a positive terminal of the second array so as to ramp up a level of current flowing through the arrays as the arrays are brought online with the power conversion component. A voltage of any terminal on either of the arrays may be limited so that the voltage on any of the terminals does not reach a restricted level.

Abstract: System, methods and apparatus for coupling photovoltaic arrays are disclosed. The apparatus may include a first input adapted to couple to a neutral line of a first photovoltaic array; a second input adapted to couple to a neutral line of a second photovoltaic array; a contactor configured to switchably couple the neutral line of a first photovoltaic array to the a neutral line of a second photovoltaic array, the contactor being remotely controllable.

Abstract: System, methods and apparatus for coupling photovoltaic arrays are disclosed. The apparatus may include a first input adapted to couple to a neutral line of a first photovoltaic array; a second input adapted to couple to a neutral line of a second photovoltaic array; a contactor configured to switchably couple the neutral line of a first photovoltaic array to the a neutral line of a second photovoltaic array, the contactor being controllable by an electric control signal; and a control input adapted to couple the switch to a remotely located controller so as to enable the controller to control the first switch by sending the electric control signal.

Abstract: A system, method and apparatus are disclosed for converting DC power to AC power. The system includes a master controller that couples to a phase of a power distribution system and provides a synchronization signal, the phase of the power distribution system having a phase voltage. The system also includes a plurality of DC-to-AC series-connectable power converters, that receive and use the synchronization signal to convert a variable DC voltage from a corresponding one a plurality of photovoltaic panels to a variable AC voltage so that a plurality of corresponding variable AC voltages are generated by the plurality series-connectable power converters, and collectively the plurality of corresponding variable AC voltages add up the phase voltage, and each of the series-connectable power converters controls, responsive to the synchronization signal, the variable AC voltage so that the plurality of corresponding variable AC voltages are in phase.

Abstract: Fault detection and interruption in connection with photovoltaic technologies are disclosed. An exemplary apparatus for interrupting a photovoltaic energy conversion system that employs a bipolar photovoltaic array includes a fault detector and interrupter configured to be coupled to the first and the second rails of the photovoltaic array, the fault detector and interrupter configured to detect a condition that requires interruption of the photovoltaic energy conversion system and open a PV tie to uncouple two PV arrays of the bipolar photovoltaic array, thereby decoupling the two PV arrays; and a controller configured to, after the PV tie is opened, open a plurality of main DC contactors thereby decoupling the bipolar photovoltaic array from a remainder portion of the energy conversion system.

Abstract: A photovoltaic system has a power converter connected by power rails to a plurality of photovoltaic strings, each string has serially connected photovoltaic panels and switches. The switches divide each string into sections, and the strings are distributed in electrical parallel paths over a plurality of arrays with one section per string in each array. A first set of strings to be brought online with the power converter is initialized. A drive signal is sent to switches in the initial set of strings to couple the sections in each string of the initial set so that the set of strings come online with the power converter providing voltage and current to the power converter.

Abstract: System, methods and apparatus for coupling photovoltaic arrays are disclosed. The apparatus may include a first input adapted to couple to a neutral line of a first photovoltaic array; a second input adapted to couple to a neutral line of a second photovoltaic array; a contactor configured to switchably couple the neutral line of a first photovoltaic array to the a neutral line of a second photovoltaic array, the contactor being controllable by an electric control signal; and a control input adapted to couple the switch to a remotely located controller so as to enable the controller to control the first switch by sending the electric control signal.

Abstract: A system, method, and apparatus for managing an application of power from photovoltaic arrays to power conversion components. The method may include arranging a first array and a second array in series, coupling a positive terminal of a first array to the power conversion component, coupling a negative terminal of a second array to the power conversion component, and modulating an amount of current flowing between a negative terminal of the first array and a positive terminal of the second array so as to ramp up a level of current flowing through the arrays as the arrays are brought online with the power conversion component. A voltage of any terminal on either of the arrays may be limited so that the voltage on any of the terminals does not reach a restricted level.

Abstract: A photovoltaic system, method and apparatus are disclosed. In an exemplary embodiment, the system includes a power converter configured to convert power from one form to another form, and an interface portion adapted to couple to the power converter, a first photovoltaic array, a second photovoltaic array, and a third photovoltaic array. In variations, the interface portion is configured to modulate an application of a voltage from the first photovoltaic array to the second and third photovoltaic arrays so as to adjust a voltage applied from the three photovoltaic arrays to the power converter.

Abstract: System, methods and apparatus for coupling photovoltaic arrays are disclosed. The apparatus may include a first input adapted to couple to a neutral line of a first photovoltaic array; a second input adapted to couple to a neutral line of a second photovoltaic array; a contactor configured to switchably couple the neutral line of a first photovoltaic array to the a neutral line of a second photovoltaic array, the contactor being remotely controllable.

Abstract: A photovoltaic system, method and apparatus are disclosed. In an exemplary embodiment, the system includes a first and second inputs adapted to couple to a first and second rails of a first photovoltaic array; a power converter coupled to a first rail of a second photovoltaic array and a second rail of a third photovoltaic array; and an interface portion coupled to (i) the first and second inputs, (ii) a second rail of the second photovoltaic array, and (iii) a first rail of the third photovoltaic array, the interface portion configures to isolate the first photovoltaic array from the second and third photovoltaic arrays and to modulate and application of voltage from the photovoltaic array to the second and third photovoltaic arrays so as to adjust a voltage applied from the three photovoltaic arrays to the power converter.

Abstract: A system, method and apparatus are disclosed for improving an operating efficiency of a photovoltaic array. In one embodiment, the method includes arranging a first portion of a photovoltaic array so that the first portion of the photovoltaic array operates above a ground potential; switchably coupling an output of the first portion of the photovoltaic array to a power supply so as to enable the power supply to apply a voltage to the output of the first portion of the photovoltaic array; arranging a second portion of the photovoltaic array so that the second portion of the photovoltaic array operates below a ground potential; and switchably coupling an output of the second portion of the photovoltaic array to the power supply so as to enable the power supply to apply a voltage to the output of the second portion of the photovoltaic array.

Abstract: A system, method and apparatus are disclosed for abating charge accumulation on a photovoltaic array. In one embodiment, the method includes arranging a portion of a photovoltaic array so that the portion of the photovoltaic array operates above a ground potential; converting solar energy into electrical energy with the photovoltaic array, wherein the portion of the photovoltaic array is predisposed to accumulate a charge on a surface of the portion of the photovoltaic array while the solar energy is converted to electrical energy; and abating charge accumulation on the surface of the portion of the photovoltaic array that operates above a ground potential.

Abstract: System, methods and apparatus for coupling photovoltaic arrays are disclosed. The apparatus may include a first input adapted to couple to a neutral line of a first photovoltaic array; a second input adapted to couple to a neutral line of a second photovoltaic array; a contactor configured to switchably couple the neutral line of a first photovoltaic array to the a neutral line of a second photovoltaic array, the contactor being controllable by an electric control signal; and a control input adapted to couple the switch to a remotely located controller so as to enable the controller to control the first switch by sending the electric control signal.

Abstract: A photovoltaic system, method and apparatus are disclosed. In an exemplary embodiment, the system includes a photovoltaic array, a distribution system that distributes power within a premises of a demand-side energy consumer, an inverter coupled to the distribution system that is configured to convert DC power from the photovoltaic array to AC power and apply the AC power to the distribution system, a damping portion configured to damp high frequency voltages derived from the inverter, and trapping circuitry coupled to the damping portion that is configured to reduce a level of low frequency current traveling through the damping portion.

Abstract: An apparatus and method for switching between matching impedances is described. One illustrative embodiment matches a first predetermined value of a dynamically varying load impedance to a predetermined source impedance and causes a phase shift between the source and the load that permits a second predetermined value of the dynamically varying load impedance to be matched to the predetermined source impedance by the addition, between the source and the load, of a single reactive element. Determining whether the dynamically varying impedance of the load is the first predetermined value or the second predetermined value permits the single reactive element to be omitted from or included in an impedance-matching circuit as needed to match the dynamically varying impedance of the load to the predetermined source impedance.