Abstract: A system for mounting solar modules to a structure includes a first solar module, a rod, and a mount. The solar module includes a photovoltaic laminate and a frame circumscribing the photovoltaic laminate. The rod is connected with the frame. The mount is configured to couple at least the first solar module to a support structure. The mount defines an interior to receive the rod and an opening to the interior configured to permit the rod to pass through the opening. The mount includes a link selectively movable between an open position that permits access to the interior through the opening and a closed position that substantially covers the opening.

Abstract: This disclosure generally relates to methods of assembling an alternating current (AC) photovoltaic (PV) module, including a direct current (DC) PV module and a micro-inverter, at an assembly location. One example method includes assembling the AC PV module by mechanically attaching and electrically grounding the micro-inverter to the DC PV module, testing a DC electrical continuity between the DC PV module and the micro-inverter, and labeling the AC PV module as compliant with a code or standard.

Abstract: A system for mounting solar modules to a structure includes a first solar module, a rod, and a mount. The solar module includes a photovoltaic laminate and a frame circumscribing the photovoltaic laminate. The rod is connected with the frame. The mount is configured to couple at least the first solar module to a support structure. The mount defines an interior to receive the rod and an opening to the interior configured to permit the rod to pass through the opening. The mount includes a link selectively movable between an open position that permits access to the interior through the opening and a closed position that substantially covers the opening.

Abstract: A system for mounting solar modules to a structure in an array includes a solar module and a connector. The solar module has a photovoltaic laminate, a frame, and a plug. The frame circumscribes the photovoltaic laminate, and includes an enclosure member extending along an edge of the photovoltaic laminate. The enclosure member has a box section that extends inward along the longitudinal length thereof. The box section is open along one end. The plug extends into the open end of the box section of the enclosure member and has energy delivery sockets that are outwardly accessible through an opening in the enclosure member. The connector is electrically connected with the energy delivery sockets and mechanically connected with the enclosure member.

Abstract: In one example, a method for installing a photovoltaic (PV) system including a plurality of PV components is described. The method includes receiving, by a computing device, a plurality of unique identifiers. Each unique identifier is associated with a different one of a plurality of PV components located at a site. The computing device compares the received unique identifiers to a list of the plurality of PV components in the PV system. The method includes associating each of the unique identifiers with a different component location on a representation of the PV system, and transmitting the associated unique identifiers and component locations to a gateway device of the PV system.

Abstract: A method and apparatus for controlling climate within a building. In one embodiment, the apparatus comprises a smart climate unit for (i) obtaining distributed generator (DG) information pertaining to operation of a DG that generates power for the building, and (ii) controlling at least one climate condition within the building based on at least one of the DG information, local input, or remote input.

Abstract: A method and apparatus for controlling climate within a building. In one embodiment, the apparatus comprises a smart climate unit for (i) obtaining distributed generator (DG) information pertaining to operation of a DG that generates power for the building, and (ii) controlling at least one climate condition within the building based on at least one of the DG information, local input, or remote input.