NEO SOLAR POWER CORP Patent applications |
Patent application number | Title | Published |
20150372637 | SOLAR MODULE FRAME - A solar module frame includes two first borders and two second borders. At least one first border includes a first segment and a second segment, where one end of the first segment is connected to one end of the second border, and one end of the second segment is connected to one end of the other second border. The solar module frame includes at least one connection component. One end of the connection component is connected to the other end of the first segment, and the other end of the connection component is connected to the other end of the second segment. Each of the first segment, the second segment, and the connection component includes an external wall, a support wall, a first clamping wall, and a second clamping wall. Each of the first segment and the second segment includes an internal wall. | 12-24-2015 |
20140366937 | SOLAR CELL - A solar cell is disclosed, which includes: a semiconductor substrate, an anti-reflective layer, a passivation layer, a back electrode and back bus bar. The semiconductor substrate has a first surface and a second surface. The anti-reflective layer is disposed on the first surface. The back electrode is a continuous electrode or a flat electrode overlapping the whole back side of the solar cell. The continuous electrode or the flat electrode connects to the semiconductor substrate through a continuous opening. In another embodiment, the continuous electrode is passing through the passivation layer directly and connecting to the semiconductor substrate. That is, the solar cell includes a continuous opening or a continuous electrode. | 12-18-2014 |
20140352773 | SOLAR CELL - A solar cell includes a photovoltaic substrate having a first surface and a second surface and a plurality of bus bar electrode net structures. The bus bar electrode net structures are separately disposed on the first surface, each bus bar electrode net structure includes a bus bar electrode, a plurality of finger electrodes, at least one connecting line electrode and at least one vertical finger electrode. The bus bar electrode is disposed on the first surface. The finger electrodes are separately disposed at two sides of the bus bar electrode. The connecting line electrode is disposed on the first surface. Each connecting line electrode connects with ends of at least two finger electrodes. The vertical finger electrode is disposed on the first surface, and is parallel to the bus bar electrode and disposed between the two ends of the finger electrode to connect with at least two adjacent finger electrodes. | 12-04-2014 |
20140251422 | SOLAR CELL WITH DOPING BLOCKS - A solar cell with doping blocks is provided, which includes: a semiconductor substrate, an anti-reflection layer, a plurality of front electrodes, and a back electrode layer. The semiconductor substrate has a first surface, and a plurality of doping block layers is arranged under the first surface and spaced from each other. The anti-reflection layer is disposed on the doping block layer and the semiconductor substrate. The front electrodes penetrate the anti-reflection layer and are arranged on the doping block layers. The back electrode layer is disposed on a second surface of the semiconductor substrate. | 09-11-2014 |
20130312813 | SOLAR CELL AND MODULE THEREOF - A solar cell includes a silicon semiconductor substrate, a composite multifunctional protective film, a plurality of front electrodes and a plurality of back electrodes. The silicon semiconductor substrate has a roughened first surface. A depth of the doped layer arranged under the first surface ranges from 200 nm to 1000 nm. A surface doping concentration of the doped layer ranges from 1×10 | 11-28-2013 |
20120192932 | SOLAR CELL AND ITS ELECTRODE STRUCTURE - An electrode structure is disposed on a substrate of a solar cell. The electrode structure includes a plurality of bus electrodes, a plurality of finger electrodes, and at least one connection electrode. The bus electrodes are separately disposed on the substrate. The finger electrodes are disposed on two sides of the bus electrodes and electrically connect to the bus electrodes. The connection electrode is disposed on a side of the substrate and connects with at least two finger electrodes. The connection electrode, bus electrodes and the finger electrodes are formed by at least two screen printing processes, and at least one of the screen printing processes does not form the bus electrodes. Thus, the thicknesses of the finger electrodes are greater than those of the bus electrodes. | 08-02-2012 |
20120037226 | SEMICONDUCTOR SUBSTRATE - A semiconductor substrate includes a substrate, at least a semiconductor layer, a first anti-reflection layer, and a second anti-reflection layer. The semiconductor layer is disposed on the substrate. The first anti-reflection layer is disposed on the semiconductor layer. The second anti-reflection layer is disposed on the first anti-reflection layer. The second anti-reflection layer is a discontinuous layer with the capability of photon conversion. | 02-16-2012 |
20110174372 | SOLAR CELL AND ELECTRODE STRUCTURE THEREOF - An electrode structure for a solar cell is disposed on a substrate of the solar cell and includes a plurality of bus electrodes and finger electrodes. The bus electrodes are formed by separately disposing a conductive material on the substrate. The finger electrodes are formed by separately disposing a conductive material on the substrate and at two sides of the bus electrodes. The bus electrodes and the finger electrodes are formed by two screen printing processes. The bottom portion of the finger electrodes are formed by a first screen printing process, and the top portion of the finger electrodes and the bus electrodes are formed by a second screen printing process. The electrode structure can enhance the conductivity of electrodes and increase the reliability and yield of the solar cell, thereby achieving the purposes of increasing the photo-electro transition efficiency of the solar cell and decreasing the manufacturing cost. | 07-21-2011 |
20110168255 | ELECTRODE STRUCTURE OF SOLAR CELL - An electrode structure is disposed on a substrate of a solar cell. The electrode structure includes a plurality of bus electrodes and a plurality of finger electrodes. The bus electrodes are separately disposed on the substrate. The finger electrodes are disposed on two sides of the bus electrodes and electrically connect to the bus electrodes. The bus electrodes and the finger electrodes are formed by at least two screen printing processes, and at least one of the screen printing processes does not form the bus electrodes. Thus, the thicknesses of the finger electrodes are greater than those of the bus electrodes. | 07-14-2011 |
20110155242 | FLUORESCENT MATERIALS AND SOLAR CELLS THEREWITH - A fluorescent material of Formula (I) is provided. | 06-30-2011 |