Patent application number | Description | Published |
20110259386 | THERMOELECTRIC GENERATING MODULE - A thermoelectric generating module includes at least one thermoelectric unit and at least one light-concentrating unit. The thermoelectric unit has a first surface and a second surface disposed oppositely. The light-concentrating unit is disposed adjacent to the thermoelectric unit and concentrates light on the first surface of the thermoelectric unit. | 10-27-2011 |
20130000712 | SOLAR CELL DEVICE AND PACKAGING METHOD THEREOF - The present invention discloses a solar cell device and a packaging method thereof. The solar cell device applies to a concentrator photovoltaic cell, and comprises a circuit substrate, a solar cell chip, and an electrode plate. The two sides of the lower surface of the electrode plate respectively have an electronic conducting element. A positive electrode plate disposed on the circuit substrate is electrically connected with a back electrode disposed on the lower surface of the solar cell chip. Through each conducting element of the electrode plate, front electrodes disposed respectively on the two sides of the upper surface of the solar cell chip are connected with a negative electrode plate disposed on the circuit substrate. | 01-03-2013 |
20130213473 | COMPOSITE SUBSTRATE WITH HIGH THERMAL CONDUCTIVITY - The present invention relates to a composite substrate with high thermal conductivity and applicable to concentrating solar power generating plates. The thermal conducting substrate and the circuit substrate are manufactured, respectively, for separating the light concentrating area and the circuit area so that the material with high thermal conductivity can be used completely to the thermal conducting substrate for guiding heat. Then, the material having common thermal conductivity can be chosen as the material for the circuit substrate, which needs no extra thermal conduction. Thereby, regarding to the selection of substrate material, the present can balance well between thermal conducting efficiency and cost control. | 08-22-2013 |
20130214376 | APPARATUS COMBINING BYPASS DIODE AND WIRE - The present invention relates to an apparatus combining bypass diode and wire. According to the present invention, the bypass diode can connect with the wire directly. It is not necessary to reserve an extra region on the substrate of the solar cell as the wire soldering area. Thereby, the required area of the ceramic substrate is reduced, and hence lowering the manufacturing cost of the solar cell substantially. | 08-22-2013 |
20150047821 | HEATING DEVICE STRUCTURE - The present relates to a heating device structure, which comprises a heat conducting member to mate with the heat dissipation fins of an electronic device. Thereby, during the packaging process of the electronic device, the effect of multi-point heating can be achieved by combining the heat conducting member and the fins. Accordingly, heating can be performed rapidly to reach the soldering temperature. Without the influence of the structure of heat dissipation fins, the heating process will not be performed at low efficiency. | 02-19-2015 |
20150096608 | FIXING APPARATUS FOR BALL LENS - The present invention relates to a fixing apparatus for ball lens used for facilitating installation of concentrator solar cell receiver module. The present invention can finish installing the fixing base for ball lens at a time and positioning the ball lens rapidly and accurately. It can also control the distance between the ball lens and the solar cell excellently. In addition, the present invention further has the function of sheltering the circuit of concentrator solar cell receiver module. When off-axis illumination of sunlight occurs, direct illumination of sunlight on, and consequently high-temperature burnout of, the circuit can be avoided. Thereby, the lifetime of the circuit can be extended effectively and the probability of failure can be reduced as well. | 04-09-2015 |
20150129527 | FRAME STRUCTURE OF SOLAR CELL MODULE - The present invention relates to a frame structure of solar cell module, which adopts extruded aluminum as the frame member of solar cell module. At the junctions of the length, width, and height edges, connecting members using the three-axis joining and tenoning technology are used as fixing members. The tenon parts in both horizontal directions of the three-axis connecting member are first inserted into and joined with the mortises of the length-edge bar and the width-edge bar of extruded aluminum. Then the mortises in the height-edge bar are joined with the tenon parts of the connecting member in the vertical direction and thus completing assembling of the frame of solar cell module. | 05-14-2015 |