Abstract:
A method for fabricating a photoelectric device initially provides a ceramic substrate comprising a thermal dissipation layer on a bottom layer of the ceramic substrate, an electrode layer on the top surface of the ceramic substrate, and a reflective structure in cavities of the ceramic substrate. Next, a plurality of photoelectric dies is disposed on the top surface of the ceramic substrate. Then, a first packaging layer is formed on the top surfaces of the photoelectric dies. Next, the ceramic substrate is placed between an upper mold and a lower mold. Finally, a plurality of lenses is formed on the top surface of the first packaging layer by using an injection molding technique or a transfer molding technique.
Abstract:
A method for fabricating a photoelectric device initially provides a ceramic substrate comprising a thermal dissipation layer on a bottom layer of the ceramic substrate, an electrode layer on the top surface of the ceramic substrate, and a reflective structure in cavities of the ceramic substrate. Next, a plurality of photoelectric dies is disposed on the top surface of the ceramic substrate. Then, a first packaging layer is formed on the top surfaces of the photoelectric dies. Next, the ceramic substrate is placed between an upper mold and a lower mold. Finally, a plurality of lenses is formed on the top surface of the first packaging layer by using an injection molding technique or a transfer molding technique.
Abstract:
A solar cell includes a substrate, a chip, a convex lens structure, and an infrared filter. The substrate has a groove in which the chip is placed. The chip can transform light energy into electric energy. Furthermore, the convex lens structure is placed over the groove. The infrared filter is attached to the incident surface of the convex lens structure.