Patent application number | Description | Published |
20130037990 | Molding Wafer Chamber - A bottom chase and a top chase of a molding system form a cavity to house a molding carrier and one or more devices. The molding carrier is placed in a desired location defined by a guiding component. The guiding component may be entirely within the cavity, or extend above a surface of the bottom chase and extend over a contacting edge of the top chase and the bottom chase, so that there is a gap between the edge of the top chase and the edge of the molding carrier which are filled by molding materials to cover the edge of the molding carrier. Releasing components may be associated with the top chase and/or the bottom chase, which may be a plurality of tape roller with a releasing film, or a plurality of vacuum holes within the bottom chase, or a plurality of bottom pins with the bottom chase. | 02-14-2013 |
20130062760 | Packaging Methods and Structures Using a Die Attach Film - Packaging methods and structures for semiconductor devices that utilize a novel die attach film are disclosed. In one embodiment, a method of packaging a semiconductor device includes providing a carrier wafer and forming a die attach film (DAF) that includes a polymer over the carrier wafer. A plurality of dies is attached to the DAF, and the plurality of dies is packaged. At least the carrier wafer is removed from the packaged dies, and the packaged dies are singulated. | 03-14-2013 |
20130122689 | Methods for De-Bonding Carriers - A method includes performing a dicing on a composite wafer including a plurality of dies, wherein the composite wafer is bonded on a carrier when the step of dicing is performed. After the step of dicing, the composite wafer is mounted onto a tape. The carrier is then de-bonded from the composite wafer and the first tape. | 05-16-2013 |
20140061888 | THREE DIMENSIONAL (3D) FAN-OUT PACKAGING MECHANISMS - The mechanisms of forming a semiconductor device package described above provide a low-cost manufacturing process due to the relative simple process flow. By forming an interconnecting structure with a redistribution layer(s) to enable bonding of one or more dies underneath a package structure, the warpage of the overall package is greatly reduced. In addition, interconnecting structure is formed without using a molding compound, which reduces particle contamination. The reduction of warpage and particle contamination improves yield. Further, the semiconductor device package formed has low form factor with one or more dies fit underneath a space between a package structure and an interconnecting structure. | 03-06-2014 |
20140151890 | PACKAGE WITH A FAN-OUT STRUCTURE AND METHOD OF FORMING THE SAME - An embodiment is a device comprising a semiconductor die, an adhesive layer on a first side of the semiconductor die, and a molding compound surrounding the semiconductor die and the adhesive layer, wherein the molding compound is at a same level as the adhesive layer. The device further comprises a first post-passivation interconnect (PPI) electrically coupled to a second side of the semiconductor die, and a first connector electrically coupled to the first PPI, wherein the first connector is over and aligned to the molding compound. | 06-05-2014 |
20140210080 | PoP Device - A method of forming a PoP device comprises placing an adhesive layer on a carrier substrate, coupling a plurality of chip packages to the adhesive layer on the carrier substrate, placing a bonding layer on the chip packages, and coupling a plurality of chips to the bonding layer on the chip packages. The method further comprises injecting a molding compound to encapsulate the chip packages and the chips on the carrier substrate, grinding the molding compound to expose a plurality of connecting elements of the chips and a plurality of second connecting elements of the chip packages, forming a redistribution layer (RDL) on the molding compound and the exposed connecting elements and second connecting elements, forming a ball grid array (BGA) on the RDL, and de-bonding the carrier substrate. | 07-31-2014 |
20140252579 | 3D-Packages and Methods for Forming the Same - A package includes an interposer, which includes a first substrate free from through-vias therein, redistribution lines over the first substrate, and a first plurality of connectors over and electrically coupled to the redistribution lines. A first die is over and bonded to the first plurality of connectors. The first die includes a second substrate, and through-vias in the second substrate. A second die is over and bonded to the plurality of connectors. The first die and the second die are electrically coupled to each other through the redistribution lines. A second plurality of connectors is over the first die and the second die. The second plurality of connectors is electrically coupled to the first plurality of connectors through the through-vias in the second substrate. | 09-11-2014 |
20140312492 | Package with a Fan-out Structure and Method of Forming the Same - An embodiment is a device comprising a semiconductor die, an adhesive layer on a first side of the semiconductor die, and a molding compound surrounding the semiconductor die and the adhesive layer, wherein the molding compound is at a same level as the adhesive layer. The device further comprises a first post-passivation interconnect (PPI) electrically coupled to a second side of the semiconductor die, and a first connector electrically coupled to the first PPI, wherein the first connector is over and aligned to the molding compound. | 10-23-2014 |
20150017764 | METHOD OF FORMING A SEMICONDUCTOR PACKAGE - A method of forming a semiconductor package includes forming an interconnecting structure on an adhesive layer, wherein the adhesive layer is on a carrier. The method further includes placing a semiconductor die on a surface of the interconnecting structure. The method further includes placing a package structure on the surface of the interconnecting structure, wherein the semiconductor die fits in a space between the interconnecting structure and the package structure. The method further includes performing a reflow to bond the package structure to the interconnecting structure. | 01-15-2015 |