Patent application number | Description | Published |
20080197473 | CHIP HOLDER WITH WAFER LEVEL REDISTRIBUTION LAYER - A chip holder formed of silicon, glass, other ceramics or other suitable materials includes a plurality of recesses for retaining semiconductor chips. The bond pads of the semiconductor chip are formed on or over an area of the chip holder that surrounds the semiconductor chip thus expanding the bonding area. The bond pads are coupled, using semiconductor wafer processing techniques, to internal bond pads formed directly on the semiconductor chip. | 08-21-2008 |
20080265378 | Scribe line layout design - A scribe line layout design to reduce the damage caused by sawing the wafer is presented. An embodiment comprises metal plates located within the scribe lines and at least partially within the junctions of the scribe lines. Each of these metal plates has one or more slots to help relieve the pressure. Alternatively, instead of metal plates, grooves that may be filled with metal could be placed into the scribe lines. These metal plates could also be used concurrently with a seal ring for better protection during sawing. | 10-30-2008 |
20080280393 | METHODS FOR FORMING PACKAGE STRUCTURES - A method for forming a semiconductor structure includes forming a first connector over at least one pad of a first substrate, the first connector having at least one curved sidewall. An encapsulation layer is formed at least partially over the first connector so as to partially expose a top surface of the first connector. A solder structure is formed, contacting the first connector. | 11-13-2008 |
20080296571 | MULTI-PROJECT WAFER AND METHOD OF MAKING SAME - A semiconductor wafer is fabricated. The wafer has a plurality of dies. The plurality of dies include at least operable dies of a first type and operable dies of a second type different from the first type. The dies of the second type are rendered inoperable, while keeping the dies of the first type operable. The wafer is provided with the operable dies of the first type and the inoperable dies of the second type on it, for testing of the dies of the first type. | 12-04-2008 |
20080308932 | SEMICONDUCTOR PACKAGE STRUCTURES - A semiconductor structure includes a plurality of solder structures between a first substrate and a second substrate. A first encapsulation material is substantially around a first one of the solder structures and a second encapsulation material is substantially around a second one of the solder structures. The first one and the second one of the solder structures are near to each other and a gap is between the first encapsulation material and the second encapsulation material. | 12-18-2008 |
20090233402 | WAFER LEVEL IC ASSEMBLY METHOD - A wafer level integrated circuit assembly method is conducted as follows. First, a mother device wafer with plural first posts is provided. The first posts are used for electrical connection and are made of copper according to an embodiment. Solder is sequentially formed on the first posts. The solder is preferably pre-formed on a wafer, and the locations of the solder correspond to the first posts of the mother device wafer. Consequently, the solder can be formed on or adhered to the first posts by placing the wafer having pre-formed solder onto the first posts. Plural dies having plural second posts corresponding to the first posts are placed onto the mother device wafer. Then, the solder is reflowed to bond the first and second posts, and the mother device wafer is diced. | 09-17-2009 |
20090263214 | FIXTURE FOR P-THROUGH SILICON VIA ASSEMBLY - A silicon-based wafer such as a TSV interposer wafer having a first and second surfaces wherein a glass carrier is mounted on the second surface by a UV tape is held by a vacuum holder applied on the first surface and the glass carrier is removed from the silicon-based wafer by irradiating the UV tape with a UV light through the glass carrier. The silicon-based wafer is then flipped and placed onto a vacuum plate and secured to the vacuum plate by applying vacuum to the vacuum plate. The vacuum holder is then released from the silicon-based wafer leaving the silicon-based wafer secured to the vacuum plate for subsequent processing steps. | 10-22-2009 |
20100055846 | SEMICONDUCTOR PACKAGE STRUCTURES - A semiconductor structure includes a plurality of solder structures between a first substrate and a second substrate. A first encapsulation material is substantially around a first one of the solder structures and a second encapsulation material is substantially around a second one of the solder structures. The first one and the second one of the solder structures are near to each other and a gap is between the first encapsulation material and the second encapsulation material. | 03-04-2010 |
20110027944 | METHOD OF FORMING ELECTRICAL CONNECTIONS - A method of forming electrical connections to a semiconductor wafer. A semiconductor wafer comprising an insulation layer is provided. The insulation layer has a surface. A patterned mask layer is formed over the surface of the insulation layer. The patterned mask layer exposes portions of the surface of the insulation layer through a plurality of holes. The portions of the plurality of holes are filled with a metal material comprising copper to form elongated columns of the metal material. The elongated columns of the metal material have a sidewall surface. The patterned mask layer is removed to expose the sidewall surface of the elongated columns of the metal material. A protection layer is formed on the exposed sidewall surface of the elongated columns of the metal material. | 02-03-2011 |
20120018875 | Reducing Delamination Between an Underfill and a Buffer layer in a Bond Structure - A die includes a metal pad, a passivation layer, and a patterned buffer layer over the passivation layer. The patterned buffer layer includes a plurality of discrete portions separated from each other. An under-bump-metallurgy (UBM) is formed in an opening in the patterned buffer layer and an opening in the passivation layer. A metal bump is formed over and electrically coupled to the UBM. | 01-26-2012 |
20120018877 | Package-on-Package Structures with Reduced Bump Bridging - A device includes a package substrate including a first non-reflowable metal bump extending over a top surface of the package substrate; a die over and bonded to the package substrate; and a package component over the die and bonded to the package substrate. The package component includes a second non-reflowable metal bump extending below a bottom surface of the package component. The package component is selected from the group consisting essentially of a device die, an additional package substrate, and combinations thereof. A solder bump bonds the first non-reflowable metal bump to the second non-reflowable metal bump. | 01-26-2012 |
20120091455 | PAD STRUCTURE HAVING CONTACT BARS EXTENDING INTO SUBSTRATE AND WAFER HAVING THE PAD STRUCTURE - A pad structure in a semiconductor wafer for wafer testing is described. The pad structure includes at least two metal pads connected there-between by a plurality of conductive vias in one or more insulation layers. A plurality of contact bars in contact with the bottom-most metal pad extends substantially vertically from the bottom-most metal pad into the substrate. An isolation structure substantially surrounds the plurality of contact bars to isolate the pad structure. | 04-19-2012 |
20120092033 | MEASUREMENT OF ELECTRICAL AND MECHANICAL CHARACTERISTICS OF LOW-K DIELECTRIC IN A SEMICONDUCTOR DEVICE - Provided is a test structure for testing an unpackaged semiconductor wafer. The test structure includes a force-application component that is coupled to an interconnect structure of the semiconductor wafer. The force-application component is operable to exert a force to the semiconductor wafer. The test structure also includes first and second test portions that are coupled to the interconnect structure. The first and second test portions are operable to measure an electrical performance associated with a predetermined region of the interconnect structure. The first and second test portions are operable to measure the electrical performance while the force is exerted to the semiconductor wafer. | 04-19-2012 |
20120326298 | BUMP STRUCTURE WITH BARRIER LAYER ON POST-PASSIVATION INTERCONNECT - A semiconductor device includes a barrier layer between a solder bump and a post-passivation interconnect (PPI) layer. The barrier layer is formed of at least one of an electroless nickel (Ni) layer, an electroless palladium (Pd) layer or an immersion gold (Au) layer. | 12-27-2012 |
20130009303 | Connecting Function Chips To A Package To Form Package-On-Package - A package-on-package (PoP) comprises a substrate with a plurality of substrate traces, a first function chip on top of the substrate connected to the substrate by a plurality of bond-on-trace connections, and a second function chip on top of the first function chip, directly connected to the substrate. Another package-on-package (PoP) comprises: a substrate with a plurality of substrate traces, a first function chip on top of the substrate connected to the substrate by a plurality of solder mask defined (SMD) connections formed on SMD bonding pads connected to solder bumps, and a second function chip on top of the first function chip, directly connected to the substrate by a plurality of bond-on-trace connections. | 01-10-2013 |
20130009307 | Forming Wafer-Level Chip Scale Package Structures with Reduced number of Seed Layers - A method includes forming a passivation layer over a metal pad, which is overlying a semiconductor substrate. A first opening is formed in the passivation layer, with a portion of the metal pad exposed through the first opening. A seed layer is formed over the passivation layer and to electrically coupled to the metal pad. The seed layer further includes a portion over the passivation layer. A first mask is formed over the seed layer, wherein the first mask has a second opening directly over at least a portion of the metal pad. A PPI is formed over the seed layer and in the second opening. A second mask is formed over the first mask, with a third opening formed in the second mask. A portion of a metal bump is formed in the third opening. After the step of forming the portion of the metal bump, the first and the second masks are removed. | 01-10-2013 |
20130009319 | Apparatus and Methods for Forming Through Vias - Methods and apparatus for forming through vias in an integrated circuit package are disclosed. An apparatus is disclosed, having a substrate having one or more bond pad terminals for receiving electrical connections on at least one surface; an encapsulation layer covering the at least one surface of the substrate and having a first thickness; a plurality of through vias extending through the encapsulation layer and positioned in correspondence with at least one of the one or more bond pad terminals; conductor material disposed within the plurality of through vias to form electrical connectors within the plurality of through vias; and at least one external terminal disposed on a surface of the encapsulation layer, electrically coupled to one of the one or more bond pad terminals by an electrical connector in at least one of the plurality of through vias. Package arrangements and methods for the through vias are disclosed. | 01-10-2013 |
20130012014 | UBM Etching Methods for Eliminating Undercut - A method includes forming an under-bump metallurgy (UBM) layer overlying a substrate, and forming a mask overlying the UBM layer. The mask covers a first portion of the UBM layer, and a second portion of the UBM layer is exposed through an opening in the mask. A metal bump is formed in the opening and on the second portion of the UBM layer. The mask is then removed. A laser removal is performed to remove a part of the first portion of the UBM layer and to form an UBM. | 01-10-2013 |
20130026614 | STRUCTURE AND METHOD FOR BUMP TO LANDING TRACE RATIO - The present disclosure provides an integrated circuit. The integrated circuit includes an interconnect structure formed on a substrate; a landing metal trace formed on the interconnect structure and coupled to the interconnect structure, wherein the landing metal trace includes a first width T defined in a first direction; and a metal bump post formed on and aligned with the landing metal trace, wherein the metal bump post includes a second width U defined in the first direction, and the second width U is greater than the first width T. | 01-31-2013 |
20130032923 | Integrated Inductor - A system and method for providing an integrated inductor with a high Quality factor (Q) is provided. An embodiment comprises a magnetic core that is in a center of a conductive spiral. The magnetic core increases the inductance of the integrated inductor to allow the inductor to be used in applications such as a RF choke. The magnetic core may be formed in the same manner and time as an underbump metallization. | 02-07-2013 |
20130034956 | CLEANING RESIDUAL MOLDING COMPOUND ON SOLDER BUMPS - A method of forming wafer-level chip scale packaging solder bumps on a wafer substrate involves cleaning the surface of the solder bumps using a laser to remove any residual molding compound from the surface of the solder bumps after the solder bumps are reflowed and a liquid molding compound is applied and cured. | 02-07-2013 |
20130062761 | Packaging Methods and Structures for Semiconductor Devices - Packaging methods and structures for semiconductor devices are disclosed. In one embodiment, a packaged semiconductor device includes a redistribution layer (RDL) having a first surface and a second surface opposite the first surface. At least one integrated circuit is coupled to the first surface of the RDL, and a plurality of metal bumps is coupled to the second surface of the RDL. A molding compound is disposed over the at least one integrated circuit and the first surface of the RDL. | 03-14-2013 |
20130093076 | SEMICONDUCTOR PACKAGE AND METHOD OF FORMING THE SAME - A method of a semiconductor package includes providing a substrate having a conductive trace coated with an organic solderability preservative (OSP) layer, removing the OSP layer from the conductive trace, and then coupling a chip to the substrate to form a semiconductor package. | 04-18-2013 |
20130093077 | POST-PASSIVATION INTERCONNECT STRUCTURE - A semiconductor device includes a passivation layer, a first protective layer, an interconnect layer, and a second protective layer successively formed on a semiconductor substrate. The interconnect layer has an exposed portion, on which a barrier layer and a solder bump are formed. At least one of the passivation layer, the first protective layer, the interconnect layer and the second protective layer includes at least one slot formed in a region outside a conductive pad region. | 04-18-2013 |
20130093084 | Wafer-Level Chip Scale Package with Re-Workable Underfill - A package includes a printed circuit board (PCB), and a die bonded to the PCB through solder balls. A re-workable underfill is dispensed in a region between the PCB and the die. | 04-18-2013 |
20130093097 | Package-On-Package (PoP) Structure and Method - A package-on-package (PoP) structure comprises a first package and a second package. The first package comprises a first die, a second die, and a core material. The core material has a first surface and a second surface. A first redistribution layer (RDL) is on the first surface, and a second RDL is on the second surface. The first die is disposed in the core material between the first surface and the second surface. The second die is coupled to one of the first RDL and the second RDL. The second package comprises a third die and an interposer. The interposer has a first side and a second side. The third die is coupled to the second side of the interposer. The first package is coupled to the second package by first electrical connectors coupled to the second side of the interposer and the first RDL. | 04-18-2013 |
20130127049 | Method for Stacking Devices and Structure Thereof - A semiconductor device that has a first device that includes a first through-silicon via (TSV) structure, a first coating material disposed over the first device, the first coating material continuously extending over the first device and covering the first TSV structure, a second device disposed over the first device and within the first coating material, the second device includes a second TSV structure and a plurality of conductive bumps, the plurality of conductive bumps are positioned within the first coating material, a second coating material disposed over the second device, the second coating material continuously extends over the second device and covers the second TSV structure, and a third device disposed over the second coating material, the third device includes a third TSV structure. | 05-23-2013 |
20130134588 | Package-On-Package (PoP) Structure and Method - Package-On-Package (PoP) structures and methods of forming PoP structures are disclosed. According to an embodiment, a structure comprises a first substrate, stud bulbs, a die, a second substrate, and electrical connectors. The stud bulbs are coupled to a first surface of the first substrate. The die is attached to the first surface of the first substrate. The electrical connectors are coupled to the second substrate, and respective ones of the electrical connectors are coupled to respective ones of the stud bulbs. | 05-30-2013 |
20130147033 | POST-PASSIVATION INTERCONNECT STRUCTURE - A semiconductor device includes a passivation layer overlying a semiconductor substrate, and an interconnect structure overlying the passivation layer. The interconnect structure includes a landing pad region and a dummy region electrically separated from each other. A protective layer overlies the interconnect structure and includes a first opening exposing a portion of the landing pad region and a second opening exposing a portion of the dummy region. A metal layer is formed on the exposed portion of landing pad region and the exposed portion of the dummy region. A bump is formed on the metal layer overlying the landing pad region. | 06-13-2013 |
20130167373 | Methods for Stud Bump Formation and Apparatus for Performing the Same - An apparatus includes a spool configured to supply a wire, a cutting device configured to form a notch in the wire, and a capillary configured to bond the wire and to form a stud bump. The apparatus is further configured to pull the wire to break at the notch, with a tail region attached to the stud bump. | 07-04-2013 |
20130168856 | Package on Package Devices and Methods of Packaging Semiconductor Dies - Package on package (PoP) devices and methods of packaging semiconductor dies are disclosed. A PoP device includes a bottom packaged die having solder balls disposed on the top surface thereof and a top packaged die having metal stud bumps disposed on a bottom surface thereof. The metal stud bumps include a bump region and a tail region coupled to the bump region. Each metal stud bump on the top packaged die is coupled to one of the solder balls on the bottom packaged die. | 07-04-2013 |
20130228932 | Package on Package Structure - A package on packaging structure comprising a first package and a second package provides for improved thermal conduction and mechanical strength by the introduction of a thermally conductive substrate attached to the second package. The first package has a first substrate and a first integrated circuit. The second package has a second substrate containing through vias that has a first coefficient of thermal expansion. The second package also has a second integrated circuit having a second coefficient of thermal expansion located on the second substrate. The second coefficient of thermal expansion deviates from the first coefficient of thermal expansion by less than about 10 or less than about 5 parts-per-million per degree Celsius. A first set of conductive elements couples the first substrate and the second substrate. A second set of conductive elements couples the second substrate and the second integrated circuit. | 09-05-2013 |
20130241058 | Wire Bonding Structures for Integrated Circuits - A device includes a substrate, and a bond pad over the substrate. A protection layer is disposed over the bond pad. The protection layer and the bond pad include different materials. A bond ball is disposed onto the protection layer. A bond wire is joined to the bond ball. | 09-19-2013 |
20130270693 | Trace Layout Method in Bump-on-Trace Structures - A method and device for preventing the bridging of adjacent metal traces in a bump-on-trace structure. An embodiment comprises determining the coefficient of thermal expansion (CTE) and process parameters of the package components. The design parameters are then analyzed and the design parameters may be modified based on the CTE and process parameters of the package components. | 10-17-2013 |
20130270699 | Conical-Shaped or Tier-Shaped Pillar Connections - A pillar structure for a substrate is provided. The pillar structure may have one or more tiers, where each tier may have a conical shape or a spherical shape. In an embodiment, the pillar structure is used in a bump-on-trace (BOT) configuration. The pillar structures may have circular shape or an elongated shape in a plan view. The substrate may be coupled to another substrate. In an embodiment, the another substrate may have raised conductive traces onto which the pillar structure may be coupled. | 10-17-2013 |
20130270700 | PACKAGE ON PACKAGE STRUCTURES AND METHODS FOR FORMING THE SAME - The described embodiments of mechanisms of forming a package on package (PoP) structure involve bonding with connectors with non-solder metal balls to a packaging substrate. The non-solder metal balls may include a solder coating layer. The connectors with non-solder metal balls can maintain substantially the shape of the connectors and control the height of the bonding structures between upper and lower packages. The connectors with non-solder metal balls are also less likely to result in bridging between connectors or disconnection (or cold joint) of bonded connectors. As a result, the pitch of the connectors with non-solder metal balls can be kept small. | 10-17-2013 |
20130270705 | Semiconductor Device Packages and Methods - Semiconductor devices packages and methods are disclosed. In one embodiment, a package for a semiconductor device includes a substrate and a contact pad disposed on a first surface of the substrate. The contact pad has a first side and a second side opposite the first side. A conductive trace is coupled to the first side of the contact pad, and an extension of the conductive trace is coupled to the second side of the contact pad. A plurality of bond pads is disposed on a second surface of the substrate. | 10-17-2013 |
20130273698 | Methods for Forming Through Vias - Methods for forming through vias in an integrated circuit package are disclosed. A substrate having a first surface is covered with an encapsulation layer of uncured material; the method includes inserting an upper mold tool having a first plurality of pillars into the encapsulation layer to imprint through vias extending to the first surface of the substrate; curing the encapsulation layer and the through vias; removing the upper mold tool from the encapsulation layer; and disposing conductor material within the through vias to make electrical connectors within the through vias. In additional methods, a method for forming an encapsulation layer using an upper and lower mold tool to form through vias and a mold cavity is disclosed. | 10-17-2013 |
20130277841 | Rigid Interconnect Structures in Package-on-Package Assemblies - System and method are disclosed for creating a rigid interconnect between two substrate mounted packages to create a package-on-package assembly. A solid interconnect may have a predetermined length configured to provide a predetermined package separation, may be cylindrical, conical or stepped, may be formed by extrusion, casting, drawing or milling and may have an anti-oxidation coating. The interconnect may be attached to mounting pads on the top and bottom packages via an electrically conductive adhesive, including, but not limited to solder and solder paste. A solder preservative or other anti-oxidation coating may be applied to the mounting pad. A package-on-package assembly with solid interconnects may have a top package configured to accept at least one electronic device, with the solid interconnects mounted between the top package and a bottom package to rigidly hold the package about parallel to each other. | 10-24-2013 |
20130285237 | Low Profile Interposer with Stud Structure - An interposer includes a substrate having a contact pad structure and a stud operably coupled to the contact pad structure. A solder ball is seated on the contact pad structure and formed around the stud. The stud is configured to regulate a collapse of the solder ball when a top package is mounted to the substrate. | 10-31-2013 |
20140001612 | Multiple Die Packaging Interposer Structure and Method | 01-02-2014 |
20140004660 | System and Method for Forming Uniform Rigid Interconnect Structures | 01-02-2014 |
20140015086 | Interconnect Structure for CIS Flip-Chip Bonding and Methods for Forming the Same - A device includes a metal pad at a surface of an image sensor chip, wherein the image sensor chip includes an image sensor. A stud bump is disposed over, and electrically connected to, the metal pad. The stud bump includes a bump region, and a tail region connected to the bump region. The tail region includes a metal wire portion substantially perpendicular to a top surface of the metal pad. The tail region is short enough to support itself against gravity. | 01-16-2014 |
20140021605 | Package on Package Devices and Methods of Packaging Semiconductor Dies - Package on package (PoP) devices and methods of packaging semiconductor dies are disclosed. A PoP device includes a first packaged die and a second packaged die coupled to the first packaged die. Metal stud bumps are disposed between the first packaged die and the second packaged die. The metal stud bumps include a stick region, a first ball region coupled to a first end of the stick region, and a second ball region coupled to a second end of the stick region. The metal stud bumps include a portion that is partially embedded in a solder joint. | 01-23-2014 |
20140042621 | Package on Package Devices and Methods of Forming Same - An embodiment is a package-on-package (PoP) device comprising a first package on a first substrate and a second package over the first package. A plurality of wire sticks disposed between the first package and the second package and the plurality of wire sticks couple the first package to the second package. Each of the plurality of wire sticks comprise a conductive wire of a first height affixed to a bond pad on the first substrate and each of the plurality of wire sticks is embedded in a solder joint. | 02-13-2014 |
20140045326 | METHOD OF MAKING A SEMICONDUCTOR DEVICE HAVING A POST-PASSIVATION INTERCONNECT STRUCTURE - A method of making a semiconductor device includes forming a passivation layer overlying a semiconductor substrate, the semiconductor substrate having a first region and a second region, wherein the first region is a conductive pad and the second region is adjacent to the first region. The method further includes forming a first protective layer overlying the passivation layer and forming an interconnect layer overlying the first protective layer. The method further includes forming a plurality of slots in the second region and forming a second protective layer overlying the interconnect layer, wherein the second protective layer fills each slot of the plurality of slots. The method further includes exposing a portion of the interconnect layer through the second protective layer; forming a barrier layer on the exposed portion of the interconnect layer; and forming a solder bump on the barrier layer. | 02-13-2014 |
20140061153 | Methods for Forming Apparatus for Stud Bump Formation - An apparatus used for forming stud bumps may be formed by providing a first clamp plate comprising a clamping surface, forming a notcher on the clamping surface, and forming a contact stopper on the clamping surface. The apparatus may include a clamp that includes at least two opposing plates, and at least one of the opposing plates includes a protruding feature that intersects the wire when the wire is clamped forming a first notch in the wire. The method for forming stud bumps includes bonding wire to a bonding surface, releasing the wire from the clamp, passing the wire a notch pitch distance through the clamp, clamping the wire with the clamp forming a second notch in the wire, and breaking the wire leaving a bonded portion of the wire on the bonding surface. | 03-06-2014 |
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 |
20140087522 | Reducing Delamination Between an Underfill and a Buffer Layer in a Bond Structure - A die includes a metal pad, a passivation layer, and a patterned buffer layer over the passivation layer. The patterned buffer layer includes a plurality of discrete portions separated from each other. An under-bump-metallurgy (UBM) is formed in an opening in the patterned buffer layer and an opening in the passivation layer. A metal bump is formed over and electrically coupled to the UBM. | 03-27-2014 |
20140110847 | BUMP-ON-TRACE INTERCONNECTION STRUCTURE FOR FLIP-CHIP PACKAGES - A bump-on-trace interconnection structure utilizing a lower volume solder joint for joining a conductive metal pillar and a metal line trace includes a conductive metal pillar having a bonding surface having a width W | 04-24-2014 |
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 |
20140131865 | Structure and Method for Bump to Landing Trace Ratio - The present disclosure provides an integrated circuit. The integrated circuit includes an interconnect structure formed on a substrate; a landing metal trace formed on the interconnect structure and coupled to the interconnect structure, wherein the landing metal trace includes a first width T defined in a first direction; and a metal bump post formed on and aligned with the landing metal trace, wherein the metal bump post includes a second width U defined in the first direction, and the second width U is greater than the first width T. | 05-15-2014 |
20140159223 | Apparatus and Method for Package Reinforcement - A method and apparatus for a reinforced package are provided. A package component may be electrically coupled to a device through a plurality of electrical connections. A molding underfill may be interposed between the package component and the device and may encapsulate the plurality of electrical connections or a subset of the plurality of electrical connections between the package component and the device. The package component may also include a molding compound. The plurality of the electrical connections may extend through the molding compound with the molding underfill interposed between the molding compound and the device to encapsulate the plurality of electrical connections or a subset of the plurality of electrical connections between the package component and the device. The molding underfill may extend up one or more sides of the package component. | 06-12-2014 |
20140167253 | Semiconductor Devices, Methods of Manufacture Thereof, and Packaged Semiconductor Devices - Semiconductor devices, methods of manufacture thereof, and packaged semiconductor devices are disclosed. In one embodiment, a semiconductor device includes a substrate and conductive traces disposed over the substrate. Each of the conductive traces has a bottom region proximate the substrate and a top region opposite the bottom region. The top region has a first width and the bottom region has a second width. The second width is greater than the first width. | 06-19-2014 |
20140183690 | Guard Ring Design for Maintaining Signal Integrity - A structure includes a metal feature, and a passivation layer having a portion overlapping the metal feature. The passivation layer includes a non-low-k dielectric material. A polymer layer is over the passivation layer. A Post-Passivation Interconnect (PPI) extends into the polymer layer to electrically couple to the metal feature. A guard ring includes a second PPI, wherein the guard ring is electrically grounded. The second PPI substantially encircles the first PPI. | 07-03-2014 |
20140187103 | System and Method for an Improved Fine Pitch Joint - Presented herein are an interconnect and method for forming the same, the method comprising forming an interconnect on a mounting surface of a mounting pad disposed on a first surface of a first substrate, the interconnect comprising a conductive material, optionally solder or metal, the interconnect avoiding the sides of the mounting pad. A molding compound is applied to the first surface of the first substrate and molded around the interconnect to covering at least a lower portion of the interconnect and a second substrate may be mounted on the interconnect. The interconnect may comprise an interconnect material disposed between a first and second substrate and a molding compound disposed on a surface of the first substrate, and exposing a portion of the interconnect. A sidewall of the interconnect material contacts the mounting pad at an angle less than about 30 degrees from a plane perpendicular to the first substrate. | 07-03-2014 |
20140246785 | Package on Package Structure - A package on packaging structure comprising a first package and a second package provides for improved thermal conduction and mechanical strength by the introduction of a thermally conductive substrate attached to the second package. The first package has a first substrate and a first integrated circuit. The second package has a second substrate containing through vias that has a first coefficient of thermal expansion. The second package also has a second integrated circuit having a second coefficient of thermal expansion located on the second substrate. The second coefficient of thermal expansion deviates from the first coefficient of thermal expansion by less than about 10 or less than about 5 parts-per-million per degree Celsius. A first set of conductive elements couples the first substrate and the second substrate. A second set of conductive elements couples the second substrate and the second integrated circuit. | 09-04-2014 |
20140252594 | Package Structures and Methods for Forming the Same - A packaging structure and a method of forming a packaging structure are provided. The packaging structure, such as an interposer, is formed by optionally bonding two carrier substrates together and simultaneously processing two carrier substrates. The processing includes forming a sacrificial layer over the carrier substrates. Openings are formed in the sacrificial layers and pillars are formed in the openings. Substrates are attached to the sacrificial layer. Redistribution lines may be formed on an opposing side of the substrates and vias may be formed to provide electrical contacts to the pillars. A debond process may be performed to separate the carrier substrates. Integrated circuit dies may be attached to one side of the redistribution lines and the sacrificial layer is removed. | 09-11-2014 |
20140252598 | Package Having Substrate with Embedded Metal Trace Overlapped by Landing Pad - A package and method of making the package are provided. An embodiment package includes an integrated circuit supporting a conductive pillar, a substrate having a landing pad on each embedded metal trace, a landing pad width greater than a corresponding embedded metal trace width, and a conductive material electrically coupling the conductive pillar to the landing pad. In an embodiment, the landing pad overlaps the metal trace in one direction. | 09-11-2014 |
20140252610 | Packaging Devices and Methods of Manufacture Thereof - Packaging devices and methods of manufacture thereof for semiconductor devices are disclosed. In some embodiments, a packaging device includes a contact pad disposed over a substrate, and a passivation layer disposed over the substrate and a first portion of the contact pad. A second portion of the contact pad is exposed. A post passivation interconnect (PPI) line is disposed over the passivation layer and is coupled to the second portion of the contact pad. A PPI pad is disposed over the passivation layer. A transition element is disposed over the passivation layer and is coupled between the PPI line and the PPI pad. The transition element includes a hollow region. | 09-11-2014 |
20140262468 | System and Method for an Improved Interconnect Structure - Presented herein are an interconnect structure and method for forming the same. The interconnect structure comprises a contact pad disposed over a substrate and a connector disposed over the substrate and spaced apart from the contact pad. A passivation layer is disposed over the contact pad and over connector, the passivation layer having a contact pad opening, a connector opening and a mounting pad opening. A post passivation layer comprising a trace and a mounting pad is disposed over the passivation layer. The trace may be disposed in the contact pad opening and contacting the mounting pad, and further disposed in the connector opening and contacting the connector. The mounting pad may be disposed in the mounting pad opening and contacting the opening. The mounting pad separated from the trace by a trace gap, which may optionally be at least 10 μm. | 09-18-2014 |
20140264837 | SEMICONDUCTOR DEVICE WITH POST-PASSIVATION INTERCONNECT STRUCTURE AND METHOD OF FORMING THE SAME - A semiconductor device, including a protective layer overlying a contact pad and a dummy pad on a semiconductor substrate, an interconnect structure overlying the protective layer and contacting part of the dummy pad through a contact via passing through the protective layer, a bump overlying the interconnect structure positioned over the dummy pad. | 09-18-2014 |
20140264927 | Single Mask Package Apparatus and Method - Disclosed herein is a single mask package apparatus on a device comprising a first substrate having a land disposed on a first surface, a stud disposed on the land and a protective layer disposed over the first surface of the first substrate and around the stud. The protective layer may optionally have a thickness of at least 3 μm. A PPI may be disposed over the protective layer and in electrical contact with the stud, with a first portion of the PPI extending laterally from the stud. An interconnect may be disposed on and in electrical contact with the first portion of the PPI, and a second substrate mounted on the interconnect. A molding compound may be disposed over the PPI and around the interconnect. The stud may be a substantially solid material having a cylindrical cross section and may optionally be wirebonded to the land. | 09-18-2014 |
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 |
20140266542 | Programmable Inductor - A system and method for providing and programming a programmable inductor is provided. The structure of the programmable inductor includes multiple turns, with programmable interconnects incorporated at various points around the turns to provide a desired isolation of the turns during programming. In an embodiment the programming may be controlled using the size of the vias, the number of vias, or the shapes of the interconnects. | 09-18-2014 |
20150044819 | Packaging Methods and Structures for Semiconductor Devices - Packaging methods and structures for semiconductor devices are disclosed. In one embodiment, a packaged semiconductor device includes a redistribution layer (RDL) having a first surface and a second surface opposite the first surface. At least one integrated circuit is coupled to the first surface of the RDL, and a plurality of metal bumps is coupled to the second surface of the RDL. A molding compound is disposed over the at least one integrated circuit and the first surface of the RDL. | 02-12-2015 |
20150056737 | Interconnect Structure for CIS Flip-Chip Bonding and Methods for Forming the Same - A device includes a metal pad at a surface of an image sensor chip, wherein the image sensor chip includes an image sensor. A stud bump is disposed over, and electrically connected to, the metal pad. The stud bump includes a bump region, and a tail region connected to the bump region. The tail region includes a metal wire portion substantially perpendicular to a top surface of the metal pad. The tail region is short enough to support itself against gravity. | 02-26-2015 |