| Patent application number | Description | Published |
|---|
| 20080289681 | STRUCTURES FOR LOW COST, RELIABLE SOLAR MODULES - Methods and devices are provided for improved large-scale solar installations. In one embodiment, a photovoltaic module is provided comprising a module front layer comprising a glass plate, a module back layer comprising an electrically conductive foil, and a plurality of solar cells arranged to be protected by the front layer and the back layer. In some embodiments, the module back layer is aluminum foil. The module back layer may have an externally exposed surface. The module back layer may be electrically grounded. An electrically insulating pottant material may be used with the solar cells to separate them from the module back layer. This allows for a high voltage withstand between the cells and the outer surface of the back layer. | 11-27-2008 |
| 20080289682 | Structures for Low Cost, Reliable Solar Modules - Methods and devices are provided for improved large-scale solar installations. In one embodiment, a photovoltaic module is provided comprising a module front layer comprising a glass plate, a module back layer comprising an electrically conductive foil, and a plurality of solar cells arranged to be protected by the front layer and the back layer. In some embodiments, the module back layer is aluminum foil. The module back layer may have an externally exposed surface. The module back layer may be electrically grounded. An electrically insulating pottant material may be used with the solar cells to separate them from the module back layer. This allows for a high voltage withstand between the cells and the outer surface of the back layer. | 11-27-2008 |
| 20080302030 | Structures for Low Cost, Reliable Solar Roofing - Improved photovoltaic devices, and more specifically, improved building integrated photovoltaic devices are described herein. In one embodiment, the photovoltaic roofing structure may be comprised of a roofing tile having a top surface, a bottom surface, and a recessed portion; a photovoltaic module sized to fit within the recessed portion of the roofing structure. | 12-11-2008 |
| 20090114261 | Edge Mountable Electrical Connection Assembly - Methods and devices are provided for improved large-scale solar installations. In one embodiment, a photovoltaic module is provided comprising of a plurality of photovoltaic cells positioned between a transparent module layer and a backside module layer. The module includes a first electrical lead extending outward from an edge of the module from between the transparent module layer and the backside module layer, wherein the lead is couplable to an adjacent module without passing the lead through a central junction box or an opening in either the transparent module layer or the backside module layer. The module may include a second electrical lead extending outward from an edge of the module from between the transparent module layer and the backside module layer, wherein the lead is couplable to another adjacent module without passing the lead through a central junction box or an opening in either the transparent module layer or the backside module layer. | 05-07-2009 |
| 20100096073 | COMPRESSION OR ARCHED MOUNTING OF SOLAR PANELS - Methods and devices are provided for solar panel installation. In one embodiment, a photovoltaic panel system for use with a support grid is provided. The system comprises of a photovoltaic panel with at least one layer comprised of a glass layer; a compression mechanism configured to laterally compress the glass layer in at least a first axis in a plane of the glass layer when the panel is mounted to the support grid. In one embodiment, the glass layer comprises of an un-tempered glass material. In another embodiment, the glass layer comprises of a tempered glass material. Optionally, other substantially transparent material may be used with or in place of the glass. | 04-22-2010 |
| 20100229914 | Solar cells with shunt resistance - Photovoltaic devices are disclosed that have built in shunt resistance. The devices comprise shunt isolation lines in the electrodes such that shunts will not degrade the efficiency of each individual unit cell. The device is easy to manufacture and the invention is suitable for use with most photovoltaic device architectures. | 09-16-2010 |
| 20100297798 | Individually Encapsulated Solar Cells and/or Solar Cell Strings - Methods and devices are provided for improved environmental protection for photovoltaic devices and assemblies. In one embodiment, the device comprises of an individually encapsulated solar cell, wherein the encapsulated solar cell includes at least one protective layer coupled to at least one surface of the solar cell and the protective layer may be formed from a substantially inorganic material. The protective layer has a chemical composition that prevents moisture from entering the solar cell and wherein light passes through the protective layer to reach an absorber layer in the solar cell. | 11-25-2010 |
