Patent application number | Description | Published |
20110254160 | TSVs with Different Sizes in Interposers for Bonding Dies - A device includes an interposer including a substrate having a top surface and a bottom surface. A plurality of through-substrate vias (TSVs) penetrates through the substrate. The plurality of TSVs includes a first TSV having a first length and a first horizontal dimension, and a second TSV having a second length different from the first length, and a second horizontal dimension different from the first horizontal dimension. An interconnect structure is formed overlying the top surface of the substrate and electrically coupled to the plurality of TSVs. | 10-20-2011 |
20110304042 | Copper Bump Structures Having Sidewall Protection Layers - A work piece includes a copper bump having a top surface and sidewalls. A protection layer is formed on the sidewalls, and not on the top surface, of the copper bump. The protection layer includes a compound of copper and a polymer, and is a dielectric layer. | 12-15-2011 |
20120306080 | Packaging Structures and Methods - A package component is free from active devices therein. The package component includes a substrate, a through-via in the substrate, a top dielectric layer over the substrate, and a metal pillar having a top surface over a top surface of the top dielectric layer. The metal pillar is electrically coupled to the through-via. A diffusion barrier is over the top surface of the metal pillar. A solder cap is disposed over the diffusion barrier. | 12-06-2012 |
20130020698 | Pillar Design for Conductive Bump - A system and method for conductive pillars is provided. An embodiment comprises a conductive pillar having trenches located around its outer edge. The trenches are used to channel conductive material such as solder when a conductive bump is formed onto the conductive pillar. The conductive pillar may then be electrically connected to another contact through the conductive material. | 01-24-2013 |
20130026620 | SELF-ALIGNING CONDUCTIVE BUMP STRUCTURE AND METHOD OF MAKING THE SAME - The disclosure relates to a conductive bump structure of a semiconductor device. An exemplary structure for a semiconductor device comprises a substrate comprising a major surface and conductive bumps distributed over the major surface of the substrate. Each of a first subset of the conductive bumps comprise a regular body, and each of a second subset of the conductive bumps comprise a ring-shaped body. | 01-31-2013 |
20130077272 | Structure Design for 3DIC Testing - A work piece includes a first copper-containing pillar having a top surface and sidewalls, and a first protection layer on the sidewalls, and not over the top surface, of the first copper-containing pillar. A test pad includes a second copper-containing pillar having a top surface and sidewalls. The test pad is electrically coupled to the first copper-containing pillar. A second protection layer is disposed on the sidewalls, and not over the top surface, of the second copper-containing pillar. The first and the second protection layers include a compound of copper and a polymer, and are dielectric layers. | 03-28-2013 |
20130134581 | PLANARIZED BUMPS FOR UNDERFILL CONTROL - The mechanisms for forming bump structures reduce variation of standoffs between chips and package substrates. By planarizing the solder layer on bump structures on chips and/or substrates after plating, the heights of bump structures are controlled to minimize variation due to within die and within wafer locations, pattern density, die size, and process variation. As a result, the standoffs between chips and substrates are controlled to be more uniform. Consequently, underfill quality is improved. | 05-30-2013 |
20130223014 | MECHANISMS FOR CONTROLLING BUMP HEIGHT VARIATION - The mechanisms for forming bumps on packaged dies and package substrates reduce variation of bump heights across the packaged dies and packaged substrates. Bumps are designed to have different widths to counter the higher plating current near edge(s) of dies or substrates. Bump sizes can be divided into different zones depending on the bump patterns and densities across the packaged die and/or substrates. Smaller bumps near edges reduce the thickness of plated film(s), which would have been thicker due to being near the edges. As a result, the bump heights across the packaged dies and/or substrates can be kept significantly constant and chip package can be properly formed. | 08-29-2013 |
20130233601 | SURFACE METAL WIRING STRUCTURE FOR AN IC SUBSTRATE - A surface metal wiring structure for a substrate includes one or more functional μbumps formed of a first metal and an electrical test pad formed of a second metal for receiving an electrical test probe and electrically connected to the one or more functional μbumps. The surface metal wiring structure also includes a plurality of sacrificial μbumps formed of the first metal that are electrically connected to the electrical test pads, where the sacrificial μbumps are positioned closer to the electrical test pad than the one or more functional μbumps. | 09-12-2013 |
20140038405 | Packaging Structures and Methods with a Metal Pillar - A package component is free from active devices therein. The package component includes a substrate, a through-via in the substrate, a top dielectric layer over the substrate, and a metal pillar having a top surface over a top surface of the top dielectric layer. The metal pillar is electrically coupled to the through-via. A diffusion barrier is over the top surface of the metal pillar. A solder cap is disposed over the diffusion barrier. | 02-06-2014 |
20140061897 | Bump Structures for Semiconductor Package - A package structure includes a first substrate bonded to a second substrate by connecting metal pillars on the first substrate to connectors on the second substrate. A first metal pillar is formed overlying and electrically connected to a metal pad on a first region of the first substrate, and a second metal pillar is formed overlying a passivation layer in a second region of the first substrate. A first solder joint region is formed between metal pillar and the first connector, and a second solder joint region is formed between the second metal pillar and the second connector. The thickness of the first metal pillar is greater than the thickness of the second metal pillar. | 03-06-2014 |
20140127863 | METHOD OF FORMING A PLURALITY OF BUMPS ON A SUBSTRATE AND METHOD OF FORMING A CHIP PACKAGE - A method of forming a plurality of bump structures on a substrate includes forming an under bump metallurgy (UBM) layer on the substrate, wherein the UBM layer contacts metal pads on the substrate. The method further includes forming a photoresist layer over the UBM layer, wherein the photoresist layer defines openings for forming the plurality of bump structures. The method further includes plating a plurality of layers in the openings, wherein the metal layers are part of the plurality of bump structures. The method further includes planarizing the plurality of bump structures after the metal layers are plated to a targeted height from a surface of the substrate. | 05-08-2014 |
20140131864 | Connector Design for Packaging Integrated Circuits - A device includes a top dielectric layer having a top surface. A metal pillar has a portion over the top surface of the top dielectric layer. A non-wetting layer is formed on a sidewall of the metal pillar, wherein the non-wetting layer is not wettable to the molten solder. A solder region is disposed over and electrically coupled to the metal pillar. | 05-15-2014 |
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 |
20140210074 | Semiconductor Devices, Methods of Manufacture Thereof, and Semiconductor Device Packages - Semiconductor devices, methods of manufacture thereof, and semiconductor device packages are disclosed. In one embodiment, a semiconductor device includes an insulating material layer having openings on a surface of a substrate. One or more insertion bumps are disposed over the insulating material layer. The semiconductor device includes signal bumps having portions that are not disposed over the insulating material layer. | 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 |
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 |
20140319683 | Packaged Semiconductor Devices and Packaging Devices and Methods - Packaged semiconductor devices and packaging devices and methods are disclosed. In one embodiment, a method of packaging a semiconductor device includes providing a first integrated circuit die that is coupled to a first surface of a substrate that includes through-substrate vias (TSVs) disposed therein. A conductive ball is coupled to each of the TSVs on a second surface of the substrate that is opposite the first surface of the substrate. A second integrated circuit die is coupled to the second surface of the substrate, and a molding compound is formed over the conductive balls, the second integrated circuit die, and the second surface of the substrate. The molding compound is removed from over a top surface of the conductive balls, and the top surface of the conductive balls is recessed. A redistribution layer (RDL) is formed over the top surface of the conductive balls and the molding compound. | 10-30-2014 |
20140361432 | Pillar Design for Conductive Bump - A system and method for conductive pillars is provided. An embodiment comprises a conductive pillar having trenches located around its outer edge. The trenches are used to channel conductive material such as solder when a conductive bump is formed onto the conductive pillar. The conductive pillar may then be electrically connected to another contact through the conductive material. | 12-11-2014 |
20150035146 | Through Package Via (TPV) - A through package vias (TPV), a package including a plurality of the TPVs, and a method of forming the through package via are provided. Embodiments of a through package via (TPV) for a package include a build-up film layer, a metal pad disposed over the build-up film layer, a polymer ring disposed over the metal pad, and a solder feature electrically coupled with the metal pad. | 02-05-2015 |
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 |
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 |
20150102502 | Integrated Fan-Out Structure with Openings in Buffer Layer - A package includes a molding compound, a through-via penetrating through the molding compound, a device die molded in the molding compound, and a buffer layer on and contacting the molding compound. An opening is through the buffer layer to the through-via. The buffer layer has ripples in a plane parallel to an interface between the molding compound and the buffer layer and around a circumference of the opening. Other embodiments contemplate an additional package bonded to the package, and methods for forming the package. | 04-16-2015 |
20150111342 | Copper Bump Structures Having Sidewall Protection Layers - A work piece includes a copper bump having a top surface and sidewalls. A protection layer is formed on the sidewalls, and not on the top surface, of the copper bump. The protection | 04-23-2015 |
20150145142 | MECHANISMS FOR FORMING PACKAGE STRUCTURE - In accordance with some embodiments, a package structure and a method for forming a package structure are provided. The package structure includes a semiconductor die and a molding compound partially or completely encapsulating the semiconductor die. The package structure also includes a through package via in the molding compound. The package structure further includes an interfacial layer between the through package via and the molding compound. The interfacial layer includes an insulating material and is in direct contact with the molding compound. | 05-28-2015 |
20150179591 | Backside Redistribution Layer (RDL) Structure - An embodiment package on package (PoP) device includes a molding compound having a metal via embedded therein, a passivation layer disposed over the molding compound, the passivation layer including a passivation layer recess vertically aligned with the metal via, and a redistribution layer bond pad capping the metal via, a portion of the redistribution layer bond pad within the passivation layer recess projecting above a top surface of the molding compound. | 06-25-2015 |
20150228604 | SELF-ALIGNING CONDUCTIVE BUMP STRUCTURE AND METHOD OF FABRICATION - A semiconductor device includes a substrate having a major surface and conductive bumps distributed over the major surface of the substrate. Each conductive bump of a first subset of the conductive bumps comprises a regular body and a second subset of the conductive bumps comprises a group of separate conductive bumps uniformly distributed around a periphery of a central opening. | 08-13-2015 |
20150255447 | 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. | 09-10-2015 |