Patent application number | Description | Published |
20120306070 | Electrical Connection for Chip Scale Packaging - A system and method for providing a post-passivation and underbump metallization is provided. An embodiment comprises a post-passivation layer that is larger than an overlying underbump metallization. The post-passivation layer extending beyond the underbump metallization shields the underlying layers from stresses generated from mismatches of the materials' coefficient of thermal expansion. | 12-06-2012 |
20130087892 | Electrical Connection for Chip Scale Packaging - A system and method for providing a post-passivation opening and undercontact metallization is provided. An embodiment comprises an opening through the post-passivation which has a first dimension longer than a second dimension, wherein the first dimension is aligned perpendicular to a chip's direction of coefficient of thermal expansion mismatch. By shaping and aligning the opening through the post-passivation layer in this fashion, the post-passivation layer helps to shield the underlying layers from stresses generated from mismatches of the materials' coefficient of thermal expansion. | 04-11-2013 |
20140113447 | Electrical Connection for Chip Scale Packaging - A system and method for providing a post-passivation and underbump metallization is provided. An embodiment comprises a post-passivation layer that is larger than an overlying underbump metallization. The post-passivation layer extending beyond the underbump metallization shields the underlying layers from stresses generated from mismatches of the materials' coefficient of thermal expansion. | 04-24-2014 |
20140264815 | Semiconductor Device Package and Method - Various packages and methods are disclosed. A package according to an embodiment includes a substrate, a chip attached to a surface of the substrate with electrical connectors, a molding compound on the surface of the substrate and around the chip, an adhesive on a surface of the chip that is distal from the surface of the substrate, and a lid on the adhesive. In an embodiment, a region between the molding compound and the lid at a corner of the lid is free from the adhesive. In another embodiment, the lid has a recess in a surface of the lid facing the surface of the molding compound. | 09-18-2014 |
20150041987 | 3D Packages and Methods for Forming the Same - Embodiments of the present disclosure include a semiconductor device, a package and methods of forming a semiconductor device and a package. An embodiment is a semiconductor device including a molding material over a first substrate with a first opening having a first width in the molding material. The semiconductor device further includes a second opening having a second width in the molding material with the second width being greater than the first width. A first connector is in the first opening and a second connector is in the second opening. | 02-12-2015 |
20150070865 | Package-on-Package Structure with Through Molding Via - Disclosed herein is a device comprising a first package having a first side with a plurality of connectors disposed thereon and a second package mounted on the first package by the connectors. A molding compound is disposed on the first side of the first package and between the first package and the second package. A plurality of stress relief structures (SRSs) are disposed in the molding compound, the plurality of SRSs each comprising a cavity free of metal in the molding compound and spaced apart from each of the plurality of connectors. | 03-12-2015 |
20150235976 | Electrical Connection for Chip Scale Packaging - A system and method for providing a post-passivation and underbump metallization is provided. An embodiment comprises a post-passivation layer that is larger than an overlying underbump metallization. The post-passivation layer extending beyond the underbump metallization shields the underlying layers from stresses generated from mismatches of the materials' coefficient of thermal expansion. | 08-20-2015 |
20160111409 | 3D Packages and Methods for Forming the Same - Embodiments of the present disclosure include a semiconductor device, a package and methods of forming a semiconductor device and a package. An embodiment is a semiconductor device including a molding material over a first substrate with a first opening having a first width in the molding material. The semiconductor device further includes a second opening having a second width in the molding material with the second width being greater than the first width. A first connector is in the first opening and a second connector is in the second opening. | 04-21-2016 |