Abstract: A LED lampshade suitable for mass production and characterized by extended LED working life is disclosed having a plastic lampshade body made by means of injection molding or pressure casting, and an in-mold decoration film directly bonded to the plastic lampshade body during the injection molding or pressure casting process. The in-mold decoration film comprises a base layer, a release layer covered on the base layer, a printing layer of a fluorescent substance or ink of a predetermined color, and an adhesive layer covered on the printing layer for bonding to the plastic lampshade body. The LED lampshade can be used with a blue LED to produce white light. The printing layer can be printed with different color inks for producing light of different colors.
Abstract: An LED fabrication method for fabricating LEDs comprises: covering all the P-contacts and N-contacts on a wafer with a hydrophilic resin mask layer, packaging the wafer with an organic or inorganic polymer compound containing a yellow fluorescent powder (or a mixture of red and green fluorescent powders), employing a water washing process to remove the hydrophilic resin mask layer so that all the P-contacts and the N-contacts are exposed to the outside, and saw-cutting the wafer into individual dies and wire-bonding the P-contact and N-contact of each die with a respective gold wire.
Abstract: Both in mold film and in mold label with a 2D or 3D pattern include a base layer, which has a flat inner surface and an outer surface that can be a 2D visual surface or 3D grating surface, a pattern layer printed on the inner surface of the base layer to show a 2D or 3D pattern, a protective layer prepared from a polymer material having high temperature resistance, acid resistance and alkali resistance characteristics and printed on the pattern layer, and an adhesion layer covered on the protective layer. In an alternate form, an anti-EMI layer is sandwiched between the protective layer and the adhesion layer for electromagnetic interference protection.
Abstract: A flexible PC board made through a water cleaning process includes a substrate prepared from polymers or copolymers such as PET, PI, PP, PS, PMMA, PC, PU, PBT, ABS, nylon, etc. A release layer prepared from a hydrophilic material and printed on the substrate to leave a blank zone on the substrate according to a predetermined circuit pattern, and a conduction layer bonded to the blank zone to form a circuit pattern. An electroplating process may be employed to increase the thickness of the circuit pattern formed of the conduction layer. Through a water cleaning process, the release layer is removed from the substrate, and the desired flexible PC board is obtained for bonding to a member of an electronic product by means of injection or pressure casting molding.
Abstract: A LED lampshade suitable for mass production and characterized by extended LED working life is disclosed having a plastic lampshade body made by means of injection molding or pressure casting, and an in-mold decoration film directly bonded to the plastic lampshade body during the injection molding or pressure casting process. The in-mold decoration film comprises a base layer, a release layer covered on the base layer, a printing layer of a fluorescent substance or ink of a predetermined color, and an adhesive layer covered on the printing layer for bonding to the plastic lampshade body. The LED lampshade can be used with a blue LED to produce white light. The printing layer can be printed with different color inks for producing light of different colors.