Patent application number | Description | Published |
20100264122 | LASER SCRIBER WITH SELF-CORRECTING MECHANISM AND SELF-CORRECTION METHOD THEREOF - A laser scriber with a self-correcting mechanism comprises a laser scribing unit, a detection unit, a control unit and a drive unit. The laser scribing unit scribes a pattern on a solar panel according to a drive signal. The detection unit detects the pattern to generate a correction signal. The control unit corrects a scribing program based on the correction signal. The drive unit generates the above-described drive signal based on the scribing program. A self-correction method of a laser scribing process comprises the steps of: setting a scribing program on a laser scriber; fixing a solar panel to the laser scriber and performing a position calibration procedure; scribing a pattern on the solar panel via the laser scriber based on the scribing program; examining whether the pattern corresponds to a specification or not; and if no, automatically generating a patch program to replace the scribing program. | 10-21-2010 |
20100288350 | SOLAR CELL AND MANUFACTURING METHOD THEREOF - The present invention discloses a solar cell and a manufacturing method. A top surface of a substrate is transformed into an active surface with a waved shape. Next, a conductive layer, a CIGS compound layer and a transparent conductive layer are sequentially formed on the active surface. The active surface with the waved shape is formed by a destructive forming method, so that the conductive layer, the CIGS compound layer and the transparent conductive layer formed on the active surface in the following step also have the waved shape. Accordingly, a light-absorbing area and a reacting area can be increased, and conversion efficiency of light energy being converted into the electric energy is raised. | 11-18-2010 |
20110155206 | SOLAR TILE STRUCTURE AND COMBINATION THEREOF - A solar tile structure includes a solar panel and a base. The solar panel is supported on an upper surface of the base. A protruding portion is formed on a lateral surface of a first short side of the base, a sunken portion is formed on a lateral surface of a second short side of the base, and the protruding portion of the first short side can be engaged with the sunken portion of the second short side tightly. The second short side of the base and a lateral side of the protruding portion substantially align with two lateral sides of the solar panel. | 06-30-2011 |
20110155220 | SOLAR PANEL TILE STRUCTURE AND COMBINATION THEREOF - A solar panel tile structure capable of draining water includes a solar panel and a supporting plate for supporting the solar panel. At least one draining slot is formed on the supporting plate and disposed around the solar plate for draining the water surrounding the solar panel. | 06-30-2011 |
20110168233 | SOLAR PANEL HEAT-DISSIPATING DEVICE AND RELATED SOLAR PANEL MODULE - A solar panel heat-dissipating device for adjusting temperature of a solar panel includes a base for supporting the solar panel and a cooling plate disposed between the solar panel and the base. The cooling plate includes a cooling tube contacting a side of the solar panel so as to absorb heat generated by the solar panel. In addition, conductive fluid is accommodated inside the cooling tube for dissipating the heat of the cooling tube conducted from the solar panel. | 07-14-2011 |
20110265841 | SEE-THROUGH SOLAR BATTERY MODULE AND MANUFACTURING METHOD THEREOF - A see-through solar battery module includes a transparent substrate, a plurality of striped metal electrodes formed on the transparent substrate along a first direction, and a plurality of striped photoelectric transducing layers respectively formed on the corresponding striped metal electrodes and the transparent substrate along the first direction. A side of each striped photoelectric transducing layer is formed on the transparent substrate and not contacting the adjacent striped metal electrode. The see-through solar battery module further includes a plurality of striped transparent electrodes respectively formed on the transparent substrate, the corresponding striped metal electrodes, and the corresponding striped photoelectric transducing layers along the first direction, so that the plurality of striped metal electrodes and the plurality of striped transparent electrodes are in series connection along a second direction different from the first direction. | 11-03-2011 |
20110265843 | SEE-THROUGH SOLAR BATTERY MODULE AND MANUFACTURING METHOD THEREOF - A see-through solar battery module includes a transparent substrate, and a plurality of block metal electrodes formed on the transparent substrate as an array. Each block metal electrode does not contact the adjacent block metal electrode along a first direction. The see-through solar battery module further includes a plurality of block photoelectric transducing layers. Each block photoelectric transducing layer is formed on the block metal electrode and the transparent substrate along the first direction and formed on the block metal electrode and the transparent substrate along a second direction as an array, and each block photoelectric transducing layer does not contact the adjacent block photoelectric transducing layer along the first direction. The see-through solar battery module further includes a plurality of striped transparent electrodes. Each striped transparent electrode is formed on the block photoelectric transducing layer, the transparent substrate, and the block metal electrode along the second direction. | 11-03-2011 |
20110265858 | SEE-THROUGH SOLAR BATTERY MODULE AND MANUFACTURING METHOD THEREOF - A see-through solar battery module includes a transparent substrate, and a plurality of first block electrodes, and each first block electrode does not contact the adjacent first block electrode along a first direction. The see-through solar battery module further includes a plurality of block photoelectric transducing layers, each block photoelectric transducing layer is formed on the corresponding first block electrode along the first direction and formed on the corresponding first block electrode and the transparent substrate along a second direction as an array, and each block photoelectric transducing layer does not contact the adjacent block photoelectric transducing layer along the first direction. The see-through solar battery module further includes a plurality of second block electrodes. Each second block electrode is formed on the block photoelectric transducing layer along the first direction and formed on the block photoelectric transducing layer and the first block electrode along the second direction. | 11-03-2011 |
20120291853 | SEE-THROUGH SOLAR BATTERY MODULE AND MANUFACTURING METHOD THEREOF - A see-through solar battery module includes a transparent substrate, a plurality of striped metal electrodes formed on the transparent substrate along a first direction, and a plurality of striped photoelectric transducing layers respectively formed on the corresponding striped metal electrode and the transparent substrate along the first direction. Two lateral sides of each striped photoelectric transducing layer do not contact the transparent substrate. The see-through solar battery module further includes a plurality of striped transparent electrodes respectively formed on the transparent substrate, the corresponding striped metal electrode, and the corresponding striped photoelectric transducing layer along the first direction, so that the plurality of striped metal electrodes and the plurality of striped transparent electrodes are in series connection along a second direction. | 11-22-2012 |