Patent application number | Description | Published |
20130001776 | Interconnect Structure for Wafer Level Package - A package includes a device die having a substrate. A molding compound contacts a sidewall of the substrate. A metal pad is over the substrate. A passivation layer has a portion covering an edge portion of the metal pad. A metal pillar is over and contacting the metal pad. A dielectric layer is over the passivation layer. A package material formed of a molding compound or a polymer is over the dielectric layer. The dielectric layer includes a bottom portion between the passivation layer and the package material, and a sidewall portion between a sidewall of the metal pillar and a sidewall of the package material. A polymer layer is over the package material, the molding compound, and the metal pillar. A post-passivation interconnect (PPI) extends into the polymer layer. A solder ball is over the PPI, and is electrically coupled to the metal pad through the PPI. | 01-03-2013 |
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 |
20130075892 | Method for Three Dimensional Integrated Circuit Fabrication - A method for fabricating three dimensional integrated circuits comprises providing a wafer stack wherein a plurality of semiconductor dies are mounted on a first semiconductor die, forming a molding compound layer on the first side of the first semiconductor die, wherein the plurality of semiconductor dies are embedded in the molding compound layer. The method further comprises grinding a second side of the first semiconductor die until a plurality of through vias become exposed, attaching the wafer stack to a tape frame and dicing the wafer stack to separate the wafer stack into a plurality of individual packages. | 03-28-2013 |
20130087916 | Methods of Packaging Semiconductor Devices and Structures Thereof - Methods of packaging semiconductor devices and structures thereof are disclosed. In one embodiment, a method of packaging a semiconductor device includes providing a carrier wafer, providing a plurality of dies, and forming a die cave material over the carrier wafer. A plurality of die caves is formed in the die cave material. At least one of the plurality of dies is placed within each of the plurality of die caves in the die cave material. A plurality of packages is formed, each of the plurality of packages being formed over a respective at least one of the plurality of dies. | 04-11-2013 |
20130087951 | Molding Chamber Apparatus and Curing Method - An embodiment is a molding chamber. The molding chamber comprises a mold-conforming chase, a substrate-base chase, a first radiation permissive component, and a microwave generator coupled to a first waveguide. The mold-conforming chase is over the substrate-base chase, and the mold-conforming chase is moveable in relation to the substrate-base chase. The first radiation permissive component is in one of the mold-conforming chase or the substrate-base chase. The microwave generator and the first waveguide are together operable to direct microwave radiation through the first radiation permissive component. | 04-11-2013 |
20130115854 | End Point Detection in Grinding - A method for performing grinding includes selecting a target wheel loading for wafer grinding processes, and performing a grinding process on a wafer. With the proceeding of the grinding process, wheel loadings of the grinding process are measured. The grinding process is stopped after the target wheel loading is reached. The method alternatively includes selecting a target reflectivity of wafer grinding processes, and performing a grinding process on a wafer. With a proceeding of the grinding process, reflectivities of a light reflected from a surface of the wafer are measured. The grinding process is stopped after one of the reflectivities reaches the target reflectivity. | 05-09-2013 |
20130119533 | Package for Three Dimensional Integrated Circuit - A wafer level package includes a semiconductor die bonded on a supporting wafer. The semiconductor die has at least a step recess at its substrate. An underfill layer is formed between the semiconductor die and the supporting wafer. Moreover, the height of the underfill layer is limited by the step recess. During a fabrication process of the wafer level package, the step recess helps to reduce the stress on the wafer level package. | 05-16-2013 |
20130119552 | Method for Forming Chip-on-Wafer Assembly - A device includes a bottom chip and an active top die bonded to the bottom chip. A dummy die is attached to the bottom chip. The dummy die is electrically insulated from the bottom chip. | 05-16-2013 |
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 |
20130187270 | Multi-Chip Fan Out Package and Methods of Forming the Same - A package includes a die having a conductive pad at a top surface of the die, a stud bump over and connected to the conductive pad, and a redistribution line over and connected to the stud bump. An electrical connector is over and electrically coupled to the redistribution line. | 07-25-2013 |
20130203215 | Packaging Methods for Semiconductor Devices - Methods of packaging semiconductor devices are disclosed. In one embodiment, a packaging method for semiconductor devices includes providing a workpiece including a plurality of first dies, and coupling a plurality of second dies to the plurality of first dies. The plurality of second dies and the plurality of first dies are partially packaged and separated. Top surfaces of the second dies are coupled to a carrier, and the partially packaged plurality of second dies and plurality of first dies are fully packaged. The carrier is removed, and the fully packaged plurality of second dies and plurality of first dies are separated. | 08-08-2013 |
20130207306 | Methods for Molding Integrated Circuits - A method includes molding a polymer onto a package component. The step of molding includes a first molding stage performed at a first temperature, and a second molding stage performed at a second temperature different from the first temperature. | 08-15-2013 |
20140001612 | Multiple Die Packaging Interposer Structure and Method | 01-02-2014 |
20140084459 | Multiple Die Packaging Interposer Structure and Method - System and method for providing a multiple die interposer structure. An embodiment comprises a plurality of interposer studs in a molded interposer, with a redirection layer on each side of the interposer. Additionally, the interposer studs may be initially attached to a conductive mounting plate by soldering or wirebond welding prior to molding the interposer, with the mounting plate etched to form one of the redirection layers. Integrated circuit dies may be attached to the redirection layers on each side of the interposer, and interlevel connection structures used to mount and electrically connect a top package having a third integrated circuit to the interposer assembly. | 03-27-2014 |
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 |
20140183731 | Package on Package (PoP) Bonding Structures - Various embodiments of mechanisms for forming through package vias (TPVs) with multiple conductive layers and/or recesses in a die package and a package on package (PoP) device with bonding structures utilizing the TPVs are provided. One of the multiple conductive layers acts as a protective layer of the main conductive layer of the TPVs. The protective layer is less likely to oxidize and also has a slower formation rate of intermetallic compound (IMC) when exposed to solder. The recesses in TPVs of a die package are filled by solder from the other die package and the IMC layer formed is below the surface of TPVs, which strengthen the bonding structures. | 07-03-2014 |
20140210081 | Packaging Methods and Packaged Semiconductor Devices - Packaging methods and packaged semiconductor devices are disclosed. In some embodiments, a method of packaging semiconductor devices includes forming first contact pads on a carrier, forming a wiring structure over the first contact pads, and forming second contact pads over the wiring structure. A first packaged semiconductor device is coupled to a first set of the second contact pads, and a second packaged semiconductor device is coupled to a second set of the second contact pads. The carrier is removed. The second packaged semiconductor device comprises a different package type than the first packaged semiconductor device. | 07-31-2014 |
20140210101 | Die package with Openings Surrounding End-portions of Through Package Vias (TPVs) and Package on Package (PoP) Using the Die Package - Various embodiments of mechanisms for forming through package vias (TPVs) with openings surrounding end-portions of the TPVs and a package on package (PoP) device with bonding structures utilizing the TPVs are provided. The openings are formed by removing materials, such as by laser drill, surrounding the end-portions of the TPVs. The openings surrounding the end-portions of the TPVs of the die package enable solders of the bonding structures formed between another die package to remain in the openings without sliding and consequently increases yield and reliability of the bonding structures. Polymers may also be added to fill the openings surrounding the TPVs or even the space between the die packages to reduce cracking of the bonding structures under stress. | 07-31-2014 |
20140252646 | Interconnect Structure for Package-on-Package Devices - An interconnect structure and a method of forming an interconnect structure are provided. The interconnect structure is formed over a carrier substrate, upon which a die may also be attached. Upon removal of the carrier substrate and singulation, a first package is formed. A second package may be attached to the first package, wherein the second package may be electrically coupled to through vias formed in the first package. | 09-11-2014 |
20140264828 | Method and Apparatus for a Conductive Pillar Structure - A method and apparatus for a conductive pillar structure is provided. A device may be provided, which may include a substrate, a first passivation layer formed over the substrate, a conductive interconnect extending through the first passivation layer and into the substrate, a conductive pad formed over the first passivation layer, and a second passivation layer formed over the interconnect pad and the second passivation layer. A portion of the interconnect pad may be exposed from the second passivation layer. The conductive pillar may be formed directly over the interconnect pad using one or more electroless plating processes. The conductive pillar may have a first and a second width and a first height corresponding to a distance between the first width and the second width. | 09-18-2014 |
20140264839 | Packaged Semiconductor Devices, Methods of Packaging Semiconductor Devices, and PoP Devices - Packaged semiconductor devices, methods of packaging semiconductor devices, and package-on-package (PoP) devices are disclosed. In some embodiments, a method of packaging a semiconductor device includes forming through-package vias (TPVs) over a carrier, and coupling a semiconductor device to the carrier. The semiconductor device includes contact pads disposed on a surface thereof and an insulating material disposed over the contact pads. A molding material is formed over the carrier between the TPVs and the semiconductor device. Openings are formed in the insulating material using a laser drilling process over the contact pads, and a redistribution layer (RDL) is formed over the insulating material and the openings in the insulating material. A portion of the RDL is coupled to a top surface of each of the contact pads. | 09-18-2014 |
20140264853 | Adhesion between Post-Passivation Interconnect Structure and Polymer - An embodiment integrated circuit structure includes a substrate, a metal pad over the substrate, a post-passivation interconnect (PPI) structure over the substrate and electronically connected to the metal pad, a thin oxide film layer directly over a top surface of the PPI structure, and a polymer layer over the thin oxide film layer and PPI structure. | 09-18-2014 |
20140287553 | Method for Forming Chip-on-Wafer Assembly - A device includes a bottom chip and an active top die bonded to the bottom chip. A dummy die is attached to the bottom chip. The dummy die is electrically insulated from the bottom chip. | 09-25-2014 |
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 |
20140322866 | Package for Three Dimensional Integrated Circuit - A wafer level package includes a semiconductor die bonded on a supporting wafer. The semiconductor die has at least a step recess at its substrate. An underfill layer is formed between the semiconductor die and the supporting wafer. Moreover, the height of the underfill layer is limited by the step recess. During a fabrication process of the wafer level package, the step recess helps to reduce the stress on the wafer level package. | 10-30-2014 |
20140339696 | Interconnect Structure for Wafer Level Package - A package includes a device die having a substrate. A molding compound contacts a sidewall of the substrate. A metal pad is over the substrate. A passivation layer has a portion covering an edge portion of the metal pad. A metal pillar is over and contacting the metal pad. A dielectric layer is over the passivation layer. A package material formed of a molding compound or a polymer is over the dielectric layer. The dielectric layer includes a bottom portion between the passivation layer and the package material, and a sidewall portion between a sidewall of the metal pillar and a sidewall of the package material. A polymer layer is over the package material, the molding compound, and the metal pillar. A post-passivation interconnect (PPI) extends into the polymer layer. A solder ball is over the PPI, and is electrically coupled to the metal pad through the PPI. | 11-20-2014 |
20140346665 | Integrated Circuit Structure and Method for Reducing Polymer Layer Delamination - An embodiment integrated circuit structure includes a substrate, a metal pad over the substrate, a post-passivation interconnect (PPI) structure over the substrate and electronically connected to the metal pad, a first polymer layer over the PPI structure, an under bump metallurgy (UBM) extending into an opening in the first polymer layer and electronically connected to the PPI structure, and a barrier layer on a top surface of the first polymer layer adjacent to the UBM. | 11-27-2014 |
20150050779 | Packaged Semiconductor Devices, Methods of Packaging Semiconductor Devices, and PoP Devices - Packaged semiconductor devices, methods of packaging semiconductor devices, and package-on-package (PoP) devices are disclosed. In some embodiments, a method of packaging a semiconductor device includes forming through-package vias (TPVs) over a carrier, and coupling a semiconductor device to the carrier. The semiconductor device includes contact pads disposed on a surface thereof and an insulating material disposed over the contact pads. A molding material is formed over the carrier between the TPVs and the semiconductor device. Openings are formed in the insulating material using a laser drilling process over the contact pads, and a redistribution layer (RDL) is formed over the insulating material and the openings in the insulating material. A portion of the RDL is coupled to a top surface of each of the contact pads. | 02-19-2015 |
20150050783 | Molding Chamber Apparatus and Curing Method - An embodiment is a molding chamber. The molding chamber comprises a mold-conforming chase, a substrate-base chase, a first radiation permissive component, and a microwave generator coupled to a first waveguide. The mold-conforming chase is over the substrate-base chase, and the mold-conforming chase is moveable in relation to the substrate-base chase. The first radiation permissive component is in one of the mold-conforming chase or the substrate-base chase. The microwave generator and the first waveguide are together operable to direct microwave radiation through the first radiation permissive component. | 02-19-2015 |
20150061149 | Packages, Packaging Methods, and Packaged Semiconductor Devices - Packages, packaging methods, and packaged semiconductor devices are disclosed. In some embodiments, a package for a semiconductor device includes a redistribution layer (RDL) and a plurality of through package vias (TPV's) coupled to the RDL. Each of the plurality of TPV's comprises a first region proximate the RDL and a second region opposite the first region. The first region comprises a first width, and the second region comprises a second width. The second width is greater than the first width. | 03-05-2015 |
20150069623 | Integrated Fan-Out Structure with Guiding Trenches in Buffer Layer - A bottom package includes a molding compound, a buffer layer over and contacting the molding compound, and a through-via penetrating through the molding compound. A device die is molded in the molding compound. A guiding trench extends from a top surface of the buffer layer into the buffer layer, wherein the guiding trench is misaligned with the device die. | 03-12-2015 |
20150076713 | Integrated Fan-Out Package Structures with Recesses in Molding Compound - A package includes a first die and a second die. The first die includes a first substrate and a first metal pad overlying the first substrate. The second die includes a second substrate and a second metal pad overlying the second substrate. A molding compound molds the first die and the second die therein. The molding compound has a first portion between the first die and the second die, and a second portion, which may form a ring encircles the first portion. The first portion and the second portion are on opposite sides of the first die. The first portion has a first top surface. The second portion has a second top surface higher than the first top surface. | 03-19-2015 |
20150084190 | Multi-Chip Package Structure and Method of Forming Same - A device comprises a first semiconductor die embedded in a molding compound layer, a surface-mount device embedded in the molding compound layer, a plurality of interconnect structures formed on the molding compound layer, wherein the first semiconductor die is electrically coupled to the interconnect structures and the surface-mount device is electrically coupled to the interconnect structures through at least one V-shaped via and a plurality of bumps formed on and electrically coupled to the interconnect structures. | 03-26-2015 |
20150084191 | Multi-Chip Package and Method of Formation - A device comprises a first semiconductor die embedded in a molding compound layer, a surface-mount device embedded in the molding compound layer, a plurality of interconnect structures formed on the molding compound layer, wherein the first semiconductor die is electrically coupled to the interconnect structures and the surface-mount device is electrically coupled to the interconnect structures through at least a metal pillar and a plurality of bumps formed on and electrically coupled to the interconnect structures. | 03-26-2015 |