Cherng-Tsong
Cherng-Tsong Kuo, Longtan Shiang TW
Patent application number | Description | Published |
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20090108857 | Apparatus for testing concentration-type solar cells - There is disclosed an apparatus for testing concentration-type solar cells. The apparatus includes a light source for emitting light, a focusing unit for focusing the light emitted from the light source and turning the same into a light beam, a testing unit for testing any one of solar cells of a wafer; and a wafer-positioning unit for moving the wafer horizontally and vertically, thus brining a targeted one of the solar cells into contact with the testing unit. | 04-30-2009 |
20090250111 | Solar cell dissipation package - A dissipation package of a solar cell is provided. The package swiftly dissipates the heat generated by the solar cell and a circuit layer coordinated. It is done by binding a ceramic layer under the circuit layer to a dissipation unit with a buffer layer and a mount layer in between. | 10-08-2009 |
20100319752 | Radiating apparatus for solar cell - A solar cell pack includes a solar cell for converting light into electricity, a circuit layer attached to the solar cell for transferring the electricity from the solar cell to a storage apparatus and radiating apparatus for radiating heat from the solar cell and the circuit layer. The radiating apparatus includes a radiator and a multi-purpose layer. The multi-purpose layer attaches the radiator to the circuit layer, isolates the radiator from the circuit layer and transfers heat to the radiator from the circuit layer in operation. | 12-23-2010 |
Cherng-Tsong Kuo, Longtan Township TW
Patent application number | Description | Published |
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20100224250 | Solar cell device structure - A solar cell device structure, that is applicable in a concentrator solar cell device structure, comprising a silicon substrate, an insulation layer, and a solar chip. Wherein, the insulation layer is provided on the silicon substrate, a pattern region is provided on the insulation layer, and the solar chip is disposed in the pattern region. Due to the various advantages of superior heat conduction, low cost, and maturity of silicon semiconductor manufacturing technology of a silicon substrate, it is utilized to replace the ceramic substrate of the prior art, hereby raising the heat dissipation efficiency and reducing the production cost. | 09-09-2010 |
20110170834 | Cable for Concentrating Photovoltaic Module - Disclosed is a cable for use in a concentrating photovoltaic module. The cable includes at least one strand wrapped with an optically pervious or reflective sheath. The pervious sheath is made of a material that exhibits a penetration rate of 90% and survives a temperature of at least 140 degrees Celsius. The reflective sheath is made of a material that exhibits a reflection rate of 95% and survives a temperature of at least 140 degrees Celsius. The cable is used to connect an anode of the concentrating photovoltaic module to a cathode of the same. The material of the reflective sheath may be isolating. | 07-14-2011 |
Cherng-Tsong Kuo, Lungtan TW
Patent application number | Description | Published |
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20080302356 | Light-collecting base-body structure - A base body comprises two frames to put lens and solar cells. The working process is simple and the weight and the cost of the base body is reduced. | 12-11-2008 |
Cherng-Tsong Kuo, Taoyuan TW
Patent application number | Description | Published |
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20110174358 | FRAME STRUCTURE OF CONCENTRATOR TYPE SOLAR CELL MODULE - A frame structure of a concentrator type solar cell module, with its carrier portion and connection and fixing portion of a frame edge designed into a vertical and stack-up arrangement, thus reducing significantly a thickness of the frame edge, such that upon carrying a concentrator lens array, the proportion of light receiving area is increased, hereby raising the photo-electrical conversion efficiency of the concentrator type solar cell module. Therefore, in this way, in a condition of maintaining a same load mechanical strength, the ineffective light receiving area can be reduced significantly, while raising the photo-electrical conversion efficiency of the solar cell module. | 07-21-2011 |