Patent application number | Description | Published |
20130270682 | Methods and Apparatus for Package on Package Devices with Reversed Stud Bump Through Via Interconnections - Methods and apparatus for package on package structures having stud bump through via interconnections. A structure includes an interconnect layer having a plurality of through via assemblies each including at least one stud bump are formed on conductive pads; and encapsulant surrounding the through via assembly, a first redistribution layer formed over a surface of the encapsulant and coupled to the through via assemblies and carrying connectors, and a second redistribution layer over interconnect layer at the other end of the through via assemblies, the through via assemblies extending vertically through the interconnect layer. In an embodiment the interconnect layer is mounted using the connectors to a lower package substrate to form a package on package structure. A first integrated circuit device may be mounted on the second redistribution layer of the interconnect layer. Methods for forming the interconnect layer and the package on package structures are disclosed. | 10-17-2013 |
20130307140 | PACKAGING WITH INTERPOSER FRAME - The mechanisms of using an interposer frame to package a semiconductor die enables fan-out structures and reduces form factor for the packaged semiconductor die. The mechanisms involve using a molding compound to attach the semiconductor die to the interposer frame and forming a redistribution layer on one or both sides of the semiconductor die. The redistribution layer(s) in the package enables fan-out connections and formation of external connection structures. Conductive columns in the interposer frame assist in thermal management. | 11-21-2013 |
20140027901 | PACKAGE-ON-PACKAGE STRUCTURES HAVING BUFFER DAMS AND METHODS FOR FORMING THE SAME - A device includes a device die and a plurality of metal posts at a surface of the device die and electrically coupled to the device die. The device further includes a plurality of through-assembly vias (TAVs), a dam member between the device die and the plurality of TAVs, and a polymer layer encompassing the device die, the plurality of metal posts, the plurality of TAVs, and the dam member. | 01-30-2014 |
20140061937 | Fan-Out Package Comprising Bulk Metal - A device includes a polymer, a device die in the polymer, and a plurality of Through Assembly Vias (TAVs) extending from a top surface to a bottom surface of the polymer. A bulk metal feature is located in the polymer and having a top-view size greater than a top-view size of each of the plurality of TAVs. The bulk metal feature is electrically floating. The polymer, the device die, the plurality of TAVs, and the bulk metal feature are portions of a package. | 03-06-2014 |
20140070422 | Semiconductor Device with Discrete Blocks - A semiconductor device and a method of manufacture are provided. In particular, a semiconductor device using blocks, e.g., discrete connection blocks, having through vias and/or integrated passive devices formed therein are provided. Embodiments such as those disclosed herein may be utilized in PoP applications. In an embodiment, the semiconductor device includes a die and a connection block encased in a molding compound. Interconnection layers may be formed on surfaces of the die, the connection block and the molding compound. One or more dies and/or packages may be attached to the interconnection layers. | 03-13-2014 |
20140077394 | Wafer Level Embedded Heat Spreader - Disclosed herein are a device having an embedded heat spreader and method for forming the same. A carrier substrate may comprise a carrier, an adhesive layer, a base film layer, and a seed layer. A patterned mask is formed with a heat spreader opening and via openings. Vias and a heat spreader may be formed in the pattern mask openings at the same time using a plating process and a die attached to the head spreader by a die attachment layer. A molding compound is applied over the die and heat spreader so that the heat spreader is disposed at the second side of the molded substrate. A first RDL may have a plurality of mounting pads and a plurality of conductive lines is formed on the molded substrate, the mounting pads may have a bond pitch greater than the bond pitch of the die contact pads. | 03-20-2014 |
20140127857 | Carrier Wafers, Methods of Manufacture Thereof, and Packaging Methods - Carrier wafers, methods of manufacture thereof, and packaging methods are disclosed. In one embodiment, a carrier wafer includes a first glass layer. The carrier wafer includes a second glass layer coupled to the first glass layer. The first glass layer has a first coefficient of thermal expansion (CTE), and the second glass layer has a second CTE. | 05-08-2014 |
20140210099 | Packaged Semiconductor Devices and Packaging Methods - Packaged semiconductor devices and packaging methods are disclosed. In some embodiments, a packaged semiconductor device includes an integrated circuit die and through-vias disposed in a molding compound. A first redistribution layer (RDL) is disposed over a first side of the through-vias, the integrated circuit die, and the molding compound. A second RDL is disposed over a second side of the through-vias, the integrated circuit die, and the molding compound. Contact pads are disposed over the second RDL. An insulating material of the second RDL includes a recess around a perimeter of one of the contact pads. | 07-31-2014 |
20140239507 | Peripheral Electrical Connection of Package on Package - Various embodiments of mechanisms for forming a die package using through sidewall vias (TsVs), which are formed by sawing through substrate via (TSV) in half, at edges of dies described enable various semiconductor dies and passive components be electrically connected to achieve targeted electrical performance. Redistribution structures with redistribution layers (RDLs) are used along with the TsVs to enable the electrical connections. Since the TsVs are away from the device regions, the device regions do not suffer from the stress caused by the TSV formation. In addition, electrical connections between upper and lower dies by the TsVs increases the efficiency of the area utilization of the die package. | 08-28-2014 |
20140252647 | Warpage Reduction and Adhesion Improvement of Semiconductor Die Package - Various embodiments of mechanisms for forming a die package and a package on package (PoP) structure using one or more compressive dielectric layers to reduce warpage are provided. The compressive dielectric layer(s) is part of a redistribution structure of the die package and its compressive stress reduces or eliminates bowing of the die package. In addition, the one or more compressive dielectric layers improve the adhesion between redistribution structure and the materials surrounding the semiconductor die. As a result, the yield and reliability of the die package and PoP structure using the die package are improved. | 09-11-2014 |
20140264930 | Fan-Out Interconnect Structure and Method for Forming Same - A method embodiment includes forming a sacrificial film layer over a top surface of a die, the die having a contact pad at the top surface. The die is attached to a carrier, and a molding compound is formed over the die and the sacrificial film layer. The molding compound extends along sidewalls of the die. The sacrificial film layer is exposed. The contact pad is exposed by removing at least a portion of the sacrificial film layer. A first polymer layer is formed over the die, and a redistribution layer (RDL) is formed over the die and electrically connects to the contact pad. | 09-18-2014 |
20140335662 | METHODS FOR FORMING PACKAGE-ON-PACKAGE STRUCTURES HAVING BUFFER DAMS - Package-on-Package (PoP) structures and methods of forming the same are disclosed. In some embodiments, a method of forming a PoP structure may include: placing a device die having a plurality of metal posts over a release layer, wherein the release layer is over a first carrier; forming a plurality of through-assembly vias (TAVs) over the release layer; forming a dam member between the device die and the plurality of TAVs; molding the device die, the dam member, and the plurality of TAVs in a molding compound; and grinding the molding compound to expose ends of the plurality of metal posts and ends of the plurality of TAVs, wherein a top surface of the molding compound is substantially level with the exposed ends of the plurality of metal posts and exposed ends of the plurality of TAVs. | 11-13-2014 |
20150072476 | Methods and Apparatus for Package on Package Devices with Reversed Stud Bump Through Via Interconnections - Methods and apparatus for package on package structures having stud bump through via interconnections. A structure includes an interconnect layer having a plurality of through via assemblies each including at least one stud bump are formed on conductive pads; and encapsulant surrounding the through via assembly, a first redistribution layer formed over a surface of the encapsulant and coupled to the through via assemblies and carrying connectors, and a second redistribution layer over interconnect layer at the other end of the through via assemblies, the through via assemblies extending vertically through the interconnect layer. In an embodiment the interconnect layer is mounted using the connectors to a lower package substrate to form a package on package structure. A first integrated circuit device may be mounted on the second redistribution layer of the interconnect layer. Methods for forming the interconnect layer and the package on package structures are disclosed. | 03-12-2015 |