Patent application number | Description | Published |
20090235979 | INTERCONNECT ASSEMBLY - An interconnect assembly. The interconnect assembly includes a trace that includes a plurality of electrically conductive portions. The plurality of electrically conductive portions is configured both to collect current from a first solar cell and to interconnect electrically to a second solar cell. In addition, the plurality of electrically conductive portions is configured such that solar-cell efficiency is substantially undiminished in an event that any one of the plurality of electrically conductive portions is conductively impaired. | 09-24-2009 |
20090283137 | SOLAR-CELL MODULE WITH IN-LAMINATE DIODES AND EXTERNAL-CONNECTION MECHANISMS MOUNTED TO RESPECTIVE EDGE REGIONS - A solar-cell module. The solar-cell module includes a plurality of solar cells that are electrically coupled together. The solar-cell module further includes an in-laminate-diode assembly electrically coupled with the plurality of solar cells. The in-laminate-diode assembly is configured to prevent power loss. The solar-cell module also includes a protective structure at least partially encapsulating the plurality of solar cells. In addition, the solar-cell module includes a plurality of external-connection mechanisms mounted to a respective plurality of edge regions of the protective structure. An external-connection mechanism of the plurality of external-connection mechanisms is configured to enable collection of current from the plurality of solar cells and to allow interconnection with at least one other external device. | 11-19-2009 |
20100043862 | Solar Panel Interconnection System - A solar panel interconnection system in which electrical interconnection distance is minimized irrespective of one of landscape or portrait panel orientation includes a first solar panel having first diagonally opposed corners, a first edge, a second edge and a tap to provide electrical connectivity thereto, and a second solar panel having second diagonally opposed corners, a first edge, a second edge and a tap to provide electrical connectivity thereto. The first edge and the second edge of the first solar panel extend from one of the first diagonally opposed corners and the tap on the first solar panel is disposed at the same corner thereof. The first edge and the second edge of the second solar panel extend from one of the second diagonally opposed corners and the tap on the second solar panel is disposed at the same corner thereof. The first solar panel and the second solar panel are disposed with either the first edge of each facing each other, such as in a landscape orientation, or the second edge of each facing each other, such as in a portrait orientation. In either event, the tap on each panel will be proximate each other to minimize electrical interconnection distance. | 02-25-2010 |
20100043863 | INTERCONNECT ASSEMBLY - An interconnect assembly. The interconnect assembly includes a trace that includes a plurality of electrically conductive portions. The plurality of electrically conductive portions is configured both to collect current from a first solar cell and to interconnect electrically to a second solar cell. In addition, the plurality of electrically conductive portions is configured such that solar-cell efficiency is substantially undiminished in an event that any one of the plurality of electrically conductive portions is conductively impaired. | 02-25-2010 |
20100258185 | TEXTURED SUBSTRATE FOR THIN-FILM SOLAR CELL - Provided herein are textured substrates for thin-film solar cells. According to various embodiments, the textured substrates are characterized by substrate patterns exhibiting low-frequency roughness or flatness and long range order. The substrates may be metallic or non-metallic substrates, and in certain embodiments are stainless steel foils. According to various embodiments, the substrates may be provided in the form of a web, ready for deposition of thin-film photovoltaic stacks. Also provided are textured back contact thin films. | 10-14-2010 |
20100258542 | LASER POLISHING OF A BACK CONTACT OF A SOLAR CELL - Provided herein are methods of polishing, cleaning and texturing back contacts of thin-film solar cells. According to various embodiments, the methods involve irradiating sites on the back contact with laser beams to remove contaminants and/or smooth the surface of the back contact. The back contact, e.g., a molybdenum, copper, or niobium thin-film, is smoothed prior to deposition of the absorber and other thin-films of the photovoltaic stack. In certain embodiments, laser polishing of the back contact is used to enhance the diffusion barrier characteristics of the back contact layer, with all or a surface layer of the back contact becoming essentially amorphous. In certain embodiments, the adhesion of the absorber layer is enhanced by the textured back contact and by the presence of the amorphous metal at the deposition surface. | 10-14-2010 |
20100258982 | LASER POLISHING OF A SOLAR CELL SUBSTRATE - Provided herein are methods of polishing and texturing surfaces thin-film photovoltaic cell substrates. The methods involve laser irradiation of a surface having a high frequency roughness in an area of 5-200 microns to form a shallow and rapidly expanding melt pool, followed by rapid cooling of the material surface. The minimization of surface tension causes the surface to re-solidify in a locally smooth surface. the high frequency roughness drops over the surface with a lower frequency bump or texture pattern remaining from the re-solidification. | 10-14-2010 |
20110146778 | SHIELDING OF INTERIOR DIODE ASSEMBLIES FROM COMPRESSION FORCES IN THIN-FILM PHOTOVOLTAIC MODULES - A method and apparatus for protecting a diode assembly of a photovoltaic module from compressive and tensile forces by providing at least one interior shielding element are provided. According to various embodiments, a photovoltaic module including a first encasing layer, a second encasing layer, at least one photovoltaic cell disposed between the first and second encasing layers, at least one shielded diode assembly disposed on the at least one photovoltaic cell and electrically connected to the at least one photovoltaic cell, and a pottant disposed between the at least one photovoltaic cell and the second encasing layer is provided. A localized shielding element may be used to shield the diode assembly. | 06-23-2011 |
20110192448 | SOLAR-CELL MODULE WITH IN-LAMINATE DIODES AND EXTERNAL-CONNECTION MECHANISMS MOUNTED TO RESPECTIVE EDGE REGIONS - A solar-cell module. The solar-cell module includes a plurality of solar cells that are electrically coupled together. The solar-cell module further includes an in-laminate-diode assembly electrically coupled with the plurality of solar cells. The in-laminate-diode assembly is configured to prevent power loss. The solar-cell module also includes a protective structure at least partially encapsulating the plurality of solar cells. In addition, the solar-cell module includes a plurality of external-connection mechanisms mounted to a respective plurality of edge regions of the protective structure. An external-connection mechanism of the plurality of external-connection mechanisms is configured to enable collection of current from the plurality of solar cells and to allow interconnection with at least one other external device. | 08-11-2011 |
20110197947 | WIRE NETWORK FOR INTERCONNECTING PHOTOVOLTAIC CELLS - Provided are novel interconnect wire network assemblies and methods of fabricating thereof. An assembly may include conductive portions/individual wires that, in certain embodiments, are substantially parallel to each other. The assembly also includes two or more carrier films (i.e., the front side and back side films) attached to opposite sides of the wires. The films are typically attached along the wire ends. The films are made from electrically insulating materials and at least the front side film is substantially transparent. The front side film is used to attach the wires to a photovoltaic surface of one cell, while the back side film is used for attachment to a substrate surface of another cell. These attachments electrically interconnect the two cells in series. In certain embodiments, one or both carrier films extend beyond two end wires and form insulated portions that allow much closer arrangements of the cells in a module. | 08-18-2011 |
20110284052 | INTEGRATED DIODE ASSEMBLIES FOR PHOTOVOLTAIC MODULES - Provided are bypass diode assemblies for use in photovoltaic modules. Also provided are methods of fabricating such assemblies and a method of fabricating photovoltaic modules using such assemblies. A diode assembly may include an insulating strip, at least one lead-diode assembly having a diode and two leads, and at least two interconnecting conductors overlapping with and electrically contacting the leads of the lead-diode assembly. The insulating strip supports the lead-diode assembly and conductors and at least partially insulates these components from photovoltaic cells. Specifically, during module fabrication, the interconnecting conductors make electrical connections to the back sides of the cells through cutouts in the insulating strip. The electrical connections may be made to every cell in a row or a subset of selected cells in that row. In certain embodiments, the same interconnecting conductor is connected to two or more cells positioned in adjacent rows. | 11-24-2011 |
20130276855 | INTERCONNECT ASSEMBLY - An interconnect assembly. The interconnect assembly includes a trace that includes a plurality of electrically conductive portions. The plurality of electrically conductive portions is configured both to collect current from a first solar cell and to interconnect electrically to a second solar cell. In addition, the plurality of electrically conductive portions is configured such that solar-cell efficiency is substantially undiminished in an event that any one of the plurality of electrically conductive portions is conductively impaired. | 10-24-2013 |