Patent application number | Description | Published |
20090032975 | Semiconductor Device and Method of Providing Common Voltage Bus and Wire Bondable Redistribution - A semiconductor wafer contains a plurality of semiconductor die. The wafer has contact pads formed over its surface. A passivation layer is formed over the wafer. A stress buffer layer is formed over the passivation layer. The stress buffer layer is patterned to expose the contact pads. A metal layer is deposited over the stress buffer layer. The metal layer is a common voltage bus for the semiconductor device in electrical contact with the contact pads. An adhesion layer, barrier layer, and seed layer is formed over the wafer in electrical contact with the contact pads. The metal layer is mounted to the seed layer. Solder bumps or other interconnect structures are formed over the metal layer. A second passivation layer is formed over the metal layer. In an alternate embodiment, a wirebondable layer can be deposited over the metal layer and wirebonds connected to the metal layer. | 02-05-2009 |
20090243083 | Wafer Integrated with Permanent Carrier and Method Therefor - A semiconductor device has a wafer for supporting the device and a conductive layer formed over a top surface of the wafer. A carrier wafer is permanently bonded over the conductive layer. Within the wafer and the carrier wafer, an interconnect structure is formed. The interconnect structure includes a first via formed in the wafer exposing the conductive layer, a second via formed in the carrier wafer exposing the conductive layer, a first metal layer deposited over the first via, the first metal layer in electrical contact with the conductive layer, and a second metal layer deposited over the second via, the second metal layer in electrical contact with the conductive layer. First and second passivation layers are deposited over the first and second metal layers. The first or second passivation layer has an etched portion to expose a portion of the first metal layer or second metal layer. | 10-01-2009 |
20090309235 | Method and Apparatus for Wafer Level Integration Using Tapered Vias - A semiconductor device has first and second wafers having bond pads. The bond pad of the second wafer is connected to the bond pad of the first wafer using a conductive adhesive. A first interconnect structure is formed within the second wafer and includes a first via formed in a back surface of the second wafer to expose the bond pad of the second wafer. A first metal layer is formed conformally over the first via and is in electrical contact with the bond pad of the second wafer. A third wafer is mounted over the second wafer by connecting a bond pad formed over a front surface of the third wafer to the first metal layer. A second interconnect structure is formed over a backside of the third wafer opposite the front surface. The second interconnect structure is electrically connected to the first metal layer. | 12-17-2009 |
20100133704 | Semiconductor Device and Method of Forming an Interposer Package with Through Silicon Vias - A semiconductor device is fabricated by providing a carrier for supporting the semiconductor device. A first semiconductor die is mounted to the carrier. The first semiconductor die has a contact pad. A first dummy die is mounted to the carrier. The first dummy die has a through-silicon via (TSV). The first semiconductor die and the first dummy die are encapsulated using a wafer molding material. A first interconnect structure is formed over the first semiconductor die and the first dummy die. The first interconnect structure is connected to the contact pad of the first semiconductor die and the TSV of the first dummy die. The carrier is removed and a second interconnect structure is formed over the first semiconductor die and the first dummy die. The second interconnect structure is connected to the TSV of the first dummy die. A semiconductor package is connected to the second interconnect structure. | 06-03-2010 |
20100140752 | Semiconductor Device and Method of Forming Compliant Polymer Layer Between UBM and Conformal Dielectric Layer/RDL for Stress Relief - A semiconductor device has a first conductive layer formed over a top surface of a substrate. A first insulating layer is formed over the substrate. A first dielectric layer is formed over the first insulating layer. A second conductive layer is formed over the first conductive layer and first dielectric layer. A second dielectric layer is formed over the second conductive layer. A polymer material is deposited over the second dielectric layer and second conductive layer. A third conductive layer is formed over the polymer material and second conductive layer. The third conductive layer is electrically connected to the second conductive layer. A first solder bump is formed over the third conductive layer. A conductive via is formed through a back surface of the substrate. The conductive via is electrically connected to the first conductive layer. The polymer material has a low coefficient of thermal expansion. | 06-10-2010 |
20100140815 | SEMICONDUCTOR DEVICE AND METHOD OF FORMING AN INTERCONNECT STRUCTURE FOR 3-D DEVICES USING ENCAPSULANT FOR STRUCTURAL SUPPORT - A semiconductor device has a first interconnect structure formed over a first side of a substrate. A semiconductor die is mounted to the first interconnect structure. An encapsulant is deposited over the semiconductor die and first interconnect structure for structural support. A portion of a second side of the substrate, opposite the first side of the substrate, is removed to reduce its thickness. The encapsulant maintains substrate robustness during thinning process. A TSV is formed through the second side of the substrate to the first interconnect structure. A second interconnect structure is formed in the TSV. The TSV has a first insulating layer formed over the second side of the substrate and first conductive layer formed over the first insulating layer and into the TSV. The second interconnect structure has a second conductive layer formed over the first conductive layer in an area away from the TSV. | 06-10-2010 |
20100193226 | SOLDER BUMP CONFINEMENT SYSTEM FOR AN INTEGRATED CIRCUIT PACKAGE - A solder bump confinement system is provided includes a substrate; a contact material patterned on the substrate; an inner passivation layer deposited over the contact material and the substrate; an under bump material pad over the contact material; an under bump material defining layer, having a bump opening contained therein, directly on the under bump material pad in which the under bump material defining layer has a thickness in the range of 200 Angstrom to 1500 Angstrom; and a system interconnect formed over the contact material and coupled to the under bump material defining layer and the under bump material pad through the bump opening. | 08-05-2010 |
20100213610 | Semiconductor Device and Method of Forming an Interconnect Structure for 3-D Devices Using Encapsulant for Structural Support - A semiconductor device has a first interconnect structure formed over a first side of a substrate. A semiconductor die is mounted to the first interconnect structure. An encapsulant is deposited over the semiconductor die and first interconnect structure for structural support. A portion of a second side of the substrate, opposite the first side of the substrate, is removed to reduce its thickness. The encapsulant maintains substrate robustness during thinning process. A TSV is formed through the second side of the substrate to the first interconnect structure. A second interconnect structure is formed in the TSV. The TSV has a first insulating layer formed over the second side of the substrate and first conductive layer formed over the first insulating layer and into the TSV. The second interconnect structure has a second conductive layer formed over the first conductive layer in an area away from the TSV. | 08-26-2010 |
20100221873 | Semiconductor Device and Method of Forming an Interconnect Structure for 3-D Devices Using Encapsulant for Structural Support - A semiconductor device has a first interconnect structure formed over a first side of a substrate. A semiconductor die is mounted to the first interconnect structure. An encapsulant is deposited over the semiconductor die and first interconnect structure for structural support. A portion of a second side of the substrate, opposite the first side of the substrate, is removed to reduce its thickness. The encapsulant maintains substrate robustness during thinning process. A TSV is formed through the second side of the substrate to the first interconnect structure. A second interconnect structure is formed in the TSV. The TSV has a first insulating layer formed over the second side of the substrate and first conductive layer formed over the first insulating layer and into the TSV. The second interconnect structure has a second conductive layer formed over the first conductive layer in an area away from the TSV. | 09-02-2010 |
20100244241 | Semiconductor Device and Method of Forming a Thin Wafer Without a Carrier - A semiconductor device has a conductive via in a first surface of a substrate. A first interconnect structure is formed over the first surface of the substrate. A first bump is formed over the first interconnect structure. The first bump is formed over or offset from the conductive via. An encapsulant is deposited over the first bump and first interconnect structure. A portion of the encapsulant is removed to expose the first bump. A portion of a second surface of the substrate is removed to expose the conductive via. The encapsulant provides structural support and eliminates the need for a separate carrier wafer when thinning the substrate. A second interconnect structure is formed over the second surface of the substrate. A second bump is formed over the first bump. A plurality of semiconductor devices can be stacked and electrically connected through the conductive via. | 09-30-2010 |
20110024916 | Semiconductor Device and Method of Forming an Interposer Package with Through Silicon Vias - A semiconductor device has a carrier for supporting the semiconductor device. A first semiconductor die is mounted over the carrier. A first dummy die having a first through-silicon via (TSV) is mounted over the carrier. The first semiconductor die and the first dummy die are encapsulated using a wafer molding material. The carrier is removed. A first redistribution layer (RDL) is formed over a first surface of the first semiconductor die and a first surface of the first dummy die to electrically connect the first TSV and a contact pad of the first semiconductor die. An insulation layer is formed over the first RDL. A second RDL is formed over a second surface of the first dummy die opposite the first surface of the first dummy die and electrically connected to the first TSV. A semiconductor package is connected to the second RDL. | 02-03-2011 |
20110101509 | Wafer Integrated With Permanent Carrier and Method Therefor - A semiconductor device has a wafer for supporting the device and a conductive layer formed over a top surface of the wafer. A carrier wafer is permanently bonded over the conductive layer. Within the wafer and the carrier wafer, an interconnect structure is formed. The interconnect structure includes a first via formed in the wafer that exposes the conductive layer, a second via formed in the carrier wafer that exposes the conductive layer, a first metal layer deposited over the first via, the first metal layer in electrical contact with the conductive layer, and a second metal layer deposited over the second via, the second metal layer in electrical contact with the conductive layer. First and second insulation layers are deposited over the first and second metal layers respectively. The first or second insulation layer has an etched portion to expose a portion of the first or second metal layer. | 05-05-2011 |
20110204509 | Semiconductor Device and Method of Forming IPD in Fan-Out Level Chip Scale Package - A semiconductor wafer contains semiconductor die. A first conductive layer is formed over the die. A resistive layer is formed over the die and first conductive layer. A first insulating layer is formed over the die and resistive layer. The wafer is singulated to separate the die. The die is mounted to a temporary carrier. An encapsulant is deposited over the die and carrier. The carrier and a portion of the encapsulant and first insulating layer is removed. A second insulating layer is formed over the encapsulant and first insulating layer. A second conductive layer is formed over the first and second insulating layers. A third insulating layer is formed over the second insulating layer and second conductive layer. A third conductive layer is formed over the third insulating layer and second conductive layer. A fourth insulating layer is formed over the third insulating layer and third conductive layer. | 08-25-2011 |
20110221054 | Semiconductor Device and Method of Forming Conductive Vias Through Interconnect Structures and Encapsulant of WLCSP - A semiconductor device has a semiconductor die mounted over the carrier. An encapsulant is deposited over the carrier and semiconductor die. The carrier is removed. A first interconnect structure is formed over the encapsulant and a first surface of the die. A second interconnect structure is formed over the encapsulant and a second surface of the die. A first protective layer is formed over the first interconnect structure and second protective layer is formed over the second interconnect structure prior to forming the vias. A plurality of vias is formed through the second interconnect structure, encapsulant, and first interconnect structure. A first conductive layer is formed in the vias to electrically connect the first interconnect structure and second interconnect structure. An insulating layer is formed over the first interconnect structure and second interconnect structure and into the vias. A discrete semiconductor component can be mounted to the first interconnect structure. | 09-15-2011 |
20120074585 | Semiconductor Device and Method of Forming TSV Interposer With Semiconductor Die and Build-Up Interconnect Structure on Opposing Surfaces of the Interposer - A semiconductor device has a substrate with first and second opposing surfaces. A plurality of conductive vias is formed partially through the first surface of the substrate. A first conductive layer is formed over the first surface of the substrate electrically connected to the conductive vias. A first semiconductor die is mounted over the first surface of the substrate. The first semiconductor die and substrate are mounted to a carrier. An encapsulant is deposited over the first semiconductor die, substrate, and carrier. A portion of the second surface of the substrate is removed to expose the conductive vias. An interconnect structure is formed over a surface of the substrate opposite the first semiconductor die. A second semiconductor die can be stacked over the first semiconductor die. A second semiconductor die can be mounted over the first surface of the substrate adjacent to the first semiconductor die. | 03-29-2012 |
20120205813 | INTEGRATED CIRCUIT PACKAGE SYSTEM WITH POST-PASSIVATION INTERCONNECTION AND INTEGRATION - An integrated circuit package system including: providing an integrated circuit die, forming a first layer over the integrated circuit die, forming a bridge on and in the first layer, forming a second layer on the first layer, and forming bump pads on and in the second layer, the bump pads connected to ends of the bridge. | 08-16-2012 |
20120241927 | INTEGRATED CIRCUIT PACKAGING SYSTEM WITH TRANSPARENT ENCAPSULATION AND METHOD OF MANUFACTURE THEREOF - A method of manufacture of an integrated circuit packaging system includes: forming a substrate having a redistribution line thereon; mounting an integrated circuit to the substrate; and molding a transparent encapsulation over the substrate covering the integrated circuit and the redistribution line and the integrated circuit seen through the transparent encapsulation. | 09-27-2012 |
20120261817 | Semiconductor Device and Method of Providing Common Voltage Bus and Wire Bondable Redistribution - A semiconductor wafer contains a plurality of semiconductor die. The wafer has contact pads formed over its surface. A passivation layer is formed over the wafer. A stress buffer layer is formed over the passivation layer. The stress buffer layer is patterned to expose the contact pads. A metal layer is deposited over the stress buffer layer. The metal layer is a common voltage bus for the semiconductor device in electrical contact with the contact pads. An adhesion layer, barrier layer, and seed layer is formed over the wafer in electrical contact with the contact pads. The metal layer is mounted to the seed layer. Solder bumps or other interconnect structures are formed over the metal layer. A second passivation layer is formed over the metal layer. In an alternate embodiment, a wirebondable layer can be deposited over the metal layer and wirebonds connected to the metal layer. | 10-18-2012 |
20120267800 | Semiconductor Device and Method of Forming IPD in Fan-Out Wafer Level Chip Scale Package - A semiconductor wafer contains semiconductor die. A first conductive layer is formed over the die. A resistive layer is formed over the die and first conductive layer. A first insulating layer is formed over the die and resistive layer. The wafer is singulated to separate the die. The die is mounted to a temporary carrier. An encapsulant is deposited over the die and carrier. The carrier and a portion of the encapsulant and first insulating layer is removed. A second insulating layer is formed over the encapsulant and first insulating layer. A second conductive layer is formed over the first and second insulating layers. A third insulating layer is formed over the second insulating layer and second conductive layer. A third conductive layer is formed over the third insulating layer and second conductive layer. A fourth insulating layer is formed over the third insulating layer and third conductive layer. | 10-25-2012 |
20120326296 | Semiconductor Device and Method of Forming Interconnect Structure Over Seed Layer on Contact Pad of Semiconductor Die Without Undercutting Seed Layer Beneath Interconnect Structure - A semiconductor device has a semiconductor die with a first conductive layer formed over the die. A first insulating layer is formed over the die with a first opening in the first insulating layer disposed over the first conductive layer. A second conductive layer is formed over the first insulating layer and into the first opening over the first conductive layer. An interconnect structure is constructed by forming a second insulating layer over the first insulating layer with a second opening having a width less than the first opening and depositing a conductive material into the second opening. The interconnect structure can be a conductive pillar or conductive pad. The interconnect structure has a width less than a width of the first opening. The second conductive layer over the first insulating layer outside the first opening is removed while leaving the second conductive layer under the interconnect structure. | 12-27-2012 |
20120326297 | Semiconductor Device and Method of Forming Protective Coating Over Interconnect Structure to Inhibit Surface Oxidation - A semiconductor device has a semiconductor die with a first conductive layer formed over the semiconductor die. A first insulating layer is formed over the semiconductor die with a first opening in the first insulating layer disposed over the first conductive layer. A second conductive layer is formed over the first insulating layer and into the first opening over the first conductive layer. An interconnect structure is formed over the first and second conductive layers within openings of a second insulating layer. The second insulating layer is removed. The interconnect structure can be a conductive pillar or conductive pad. A bump material can be formed over the conductive pillar. A protective coating is formed over the conductive pillar or pad to a thickness less than one micrometer to reduce oxidation. The protective coating is formed by immersing the conductive pillar or pad into the bath containing tin or indium. | 12-27-2012 |
20130228919 | Semiconductor Device and Method of Forming Protective Coating Over Interconnect Structure to Inhibit Surface Oxidation - A semiconductor device has a semiconductor die with a first conductive layer formed over the semiconductor die. A first insulating layer is formed over the semiconductor die with a first opening in the first insulating layer disposed over the first conductive layer. A second conductive layer is formed over the first insulating layer and into the first opening over the first conductive layer. An interconnect structure is formed over the first and second conductive layers within openings of a second insulating layer. The second insulating layer is removed. The interconnect structure can be a conductive pillar or conductive pad. A bump material can be formed over the conductive pillar. A protective coating is formed over the conductive pillar or pad to a thickness less than one micrometer to reduce oxidation. The protective coating is formed by immersing the conductive pillar or pad into the bath containing tin or indium. | 09-05-2013 |
20130249080 | Semiconductor Device and Method for Forming Openings and Trenches in Insulating Layer by First LDA and Second LDA for RDL Formation - A semiconductor device has a semiconductor die with an encapsulant deposited over the semiconductor die. A first insulating layer having high tensile strength and elongation is formed over the semiconductor die and encapsulant. A first portion of the first insulating layer is removed by a first laser direct ablation to form a plurality of openings in the first insulating layer. The openings extend partially through the first insulating layer or into the encapsulant. A second portion of the first insulating layer is removed by a second laser direct ablation to form a plurality of trenches in the first insulating layer. A conductive layer is formed in the openings and trenches of the first insulating layer. A second insulating layer is formed over the conductive layer. A portion of the second insulating layer is removed by a third laser direct ablation. Bumps are formed over the conductive layer. | 09-26-2013 |
20130249101 | Semiconductor Method of Device of Forming a Fan-Out PoP Device with PWB Vertical Interconnect Units - A semiconductor device has a carrier with a die attach area. A semiconductor die is mounted to the die attach area with a back surface opposite the carrier. A modular interconnect unit is mounted over the carrier and around or in a peripheral region around the semiconductor die such that the modular interconnect unit is offset from the back surface of the semiconductor die. An encapsulant is deposited over the carrier, semiconductor die, and modular interconnect unit. A first portion of the encapsulant is removed to expose the semiconductor die and a second portion is removed to expose the modular interconnect unit. The carrier is removed. An interconnect structure is formed over the semiconductor die and modular interconnect unit. The modular interconnect unit includes a vertical interconnect structures or bumps through the semiconductor device. The modular interconnect unit forms part of an interlocking pattern around the semiconductor die. | 09-26-2013 |
20130249115 | Semiconductor Method and Device of Forming a Fan-Out PoP Device with PWB Vertical Interconnect Units - A semiconductor device has a carrier with a die attach area. A semiconductor die is mounted to the die attach area with a back surface opposite the carrier. A modular interconnect unit is mounted over the carrier and around or in a peripheral region around the semiconductor die such that the modular interconnect unit is offset from the back surface of the semiconductor die. An encapsulant is deposited over the carrier, semiconductor die, and modular interconnect unit. A first portion of the encapsulant is removed to expose the semiconductor die and a second portion is removed to expose the modular interconnect unit. The carrier is removed. An interconnect structure is formed over the semiconductor die and modular interconnect unit. The modular interconnect unit includes a vertical interconnect structures or bumps through the semiconductor device. The modular interconnect unit forms part of an interlocking pattern around the semiconductor die. | 09-26-2013 |
20130277851 | Semiconductor Method and Device of Forming a Fan-Out Device with PWB Vertical Interconnect Units - A semiconductor device has a modular interconnect unit or interconnect structure disposed in a peripheral region of the semiconductor die. An encapsulant is deposited over the semiconductor die and interconnect structure. A first insulating layer is formed over the semiconductor die and interconnect structure. A plurality of openings is formed in the first insulating layer over the interconnect structure. The openings have a pitch of 40 micrometers. The openings include a circular shape, ring shape, cross shape, or lattice shape. A conductive layer is deposited over the first insulating layer. The conductive layer includes a planar surface. A second insulating layer is formed over the conductive layer. A portion of the encapsulant is removed to expose the semiconductor die and the interconnect structure. The modular interconnect unit includes a vertical interconnect structure. The modular interconnect unit forms part of an interlocking pattern around the semiconductor die. | 10-24-2013 |
20140217597 | Semiconductor Device and Method of Forming Stress Relieving Vias for Improved Fan-Out WLCSP Package - A semiconductor device includes a semiconductor die. An encapsulant is disposed around the semiconductor die to form a peripheral area. An interconnect structure is formed over a first surface of the semiconductor die and encapsulant. A plurality of vias is formed partially through the peripheral area of the encapsulant and offset from the semiconductor die. A portion of the encapsulant is disposed over a second surface of the semiconductor die opposite the first surface. The plurality of vias comprises a depth greater than a thickness of the portion of the encapsulant. A first portion of the plurality of vias is formed in a row offset from a side of the semiconductor die. A second portion of the plurality of vias is formed as an array of vias offset from a corner of the semiconductor die. A repair material disposed within the plurality of vias. | 08-07-2014 |