Patent application number | Description | Published |
20130256922 | Method for Fabricating a Semiconductor Device - In a method for fabricating a semiconductor device, a carrier and at least one semiconductor chip are provided. | 10-03-2013 |
20140035127 | CHIP PACKAGE AND A METHOD FOR MANUFACTURING A CHIP PACKAGE - A method for manufacturing a chip package is provided. The method includes: forming an electrically insulating material over a chip side; selectively removing at least part of the electrically insulating material thereby forming a trench in the electrically insulating material, depositing electrically conductive material in the trench wherein the electrically conductive material is electrically connected to at least one contact pad formed over the chip side; forming an electrically conductive structure over the electrically insulating material, wherein at least part of the electrically conductive structure is in direct physical and electrical connection with the electrically conductive material; and depositing a joining structure over the electrically conductive structure. | 02-06-2014 |
20140035154 | CHIP PACKAGE AND A METHOD FOR MANUFACTURING A CHIP PACKAGE - A chip package is provided, the chip package including: a chip including at least one contact pad formed on a chip front side; an encapsulation material at least partially surrounding the chip and covering the at least one contact pad; and at least one electrical interconnect formed through the encapsulation material, wherein the at least one electrical interconnect is configured to electrically redirect the at least one contact pad from a chip package first side at the chip front side to at least one solder structure formed over a chip package second side at a chip back side. | 02-06-2014 |
20140239438 | SEMICONDUCTOR DEVICE - A number of semiconductor chips each include a first main face and a second main face opposite to the first main face. A first encapsulation layer is applied over the second main faces of the semiconductor chips. An electrical wiring layer is applied over the first main faces of the first semiconductor chips. A second encapsulation layer is applied over the electrical wiring layer. The thickness of the first encapsulation layer and the thicknesses of the first semiconductor chips is reduced. The structure can be singulated to obtain a plurality of semiconductor devices. | 08-28-2014 |
20140332936 | PACKAGE ARRANGEMENT AND METHOD OF FORMING THE SAME - In various embodiments, a package arrangement may be provided. The package arrangement may include at least one chip. The package arrangement may further include encapsulation material at least partially encapsulating the chip. The package arrangement may also include a redistribution structure over a first side of the chip. The package arrangement may further include a metal structure over a second side of the chip. The second side may be opposite the first side. The package arrangement may additionally include at least one of a semiconductor structure and an electrically conductive plastic material structure electrically coupled to the redistribution structure and the metal structure to form a current path between the redistribution structure and the metal structure. | 11-13-2014 |
20150064846 | Semiconductor Device - A number of semiconductor chips each include a first main face and a second main face opposite to the first main face. A first encapsulation layer is applied over the second main faces of the semiconductor chips. An electrical wiring layer is applied over the first main faces of the first semiconductor chips. A second encapsulation layer is applied over the electrical wiring layer. The thickness of the first encapsulation layer and the thicknesses of the first semiconductor chips is reduced. The structure can be singulated to obtain a plurality of semiconductor devices. | 03-05-2015 |
20150091171 | Metal Redistribution Layer for Molded Substrates - Integrated circuits are packaged by placing a plurality of semiconductor dies on a support substrate, each one of the semiconductor dies having a plurality of terminals at a side facing the support substrate and covering the semiconductor dies with a molding compound to form a molded structure. The support substrate is then removed from the molded structure to expose the side of the semiconductor dies with the terminals, and a metal redistribution layer is formed on the molded structure and in direct contact with the terminals of the semiconductor dies and the molding compound. The redistribution layer is formed without first forming a dielectric layer on a side of the molded structure with the terminals of the semiconductor dies. A corresponding molded substrate and individual molded semiconductor packages are also disclosed. | 04-02-2015 |
20150145149 | Semiconductor Device Packaging - A method of manufacturing a semiconductor device package includes encapsulating at least partially a plurality of semiconductor chips with encapsulating material to form an encapsulation body. The encapsulation body has a first main surface and a second main surface. At least one of a metal layer and an organic layer is formed over the first main surface of the encapsulation body. At least one trace of the at least one of the metal layer and the organic layer is removed by laser ablation. The encapsulation body is then separated into a plurality of semiconductor device packages along the at least one trace. | 05-28-2015 |