Patent application number | Description | Published |
20120286429 | Semiconductor Device and Method of Singulating Thin Semiconductor Wafer on Carrier Along Modified Region Within Non-Active Region Formed by Irradiating Energy - A semiconductor device comprises a carrier including an adhesive disposed over the carrier. The semiconductor device further comprises a semiconductor wafer including a plurality of semiconductor die separated by a non-active region. A plurality of bumps is formed over the semiconductor die. The semiconductor wafer is mounted to the carrier with the adhesive disposed around the plurality of bumps. Irradiated energy is applied to the non-active region to form a modified region within the non-active region. The semiconductor wafer is singulated along the modified region to separate the semiconductor die. The semiconductor wafer is singulated along the modified region by applying stress to the semiconductor wafer. The adhesive is removed from around the plurality of bumps after singulating the semiconductor wafer. The semiconductor wafer includes a plurality of semiconductor die comprising through silicon vias. The modified region optionally includes a plurality of vertically stacked modified regions. | 11-15-2012 |
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 |
20130020713 | Wafer Level Package and a Method of Forming a Wafer Level Package - In an embodiment, a wafer level package may be provided. The wafer level package may include a device wafer including a MEMS device, a cap wafer disposed over the device wafer, at least one first interconnect disposed between the device wafer and the cap wafer and configured to provide an electrical connection between the device wafer and the cap wafer, and a conformal sealing ring disposed between the device wafer and the cap wafer and configured to surround the at least one first interconnect and the MEMS device so as to provide a conformally sealed environment for the at least one first interconnect and the MEMS device, wherein the conformal sealing ring may be configured to conform to a respective suitable surface of the device wafer and the cap wafer when the device wafer may be bonded to the cap wafer. A method of forming a wafer level package may also be provided. | 01-24-2013 |
20130037603 | Method of Forming a Bonded Structure - In an embodiment, a method of forming a bonded structure is provided. The method may include forming at least one first under bump metallurgy (UBM) structure on a first substrate, forming a first gold layer on the at least one first under bump metallurgy structure; forming a tin layer on the first gold layer, forming an indium layer on the tin layer, forming an inhibition layer configured to inhibit oxygen penetration on the indium layer, and forming at least one second under bump metallurgy structure on a second substrate, forming s second gold layer on the at least one second under bump metallurgy structure; and bringing the inhibition layer into contact with the second gold layer at a predetermined temperature to form a resultant intermetallic structure between the first substrate and the second substrate thereby bonding the first substrate to the second substrate and forming the bonded structure. | 02-14-2013 |
20130147036 | Semiconductor Device and Method of Forming UBM Structure on Back Surface of TSV Semiconductor Wafer - A semiconductor device has a plurality of conductive vias formed through the semiconductor die with a first insulating layer around the conductive vias. A recess is formed in the first insulating layer around the conductive vias by LDA. A portion of the semiconductor wafer is removed by LDA after forming the recess in the first insulating layer so that the conductive vias extend above a surface of the semiconductor wafer. The first insulating layer extends to the surface of the semiconductor wafer or above the surface of the semiconductor wafer. A second insulating layer is formed over the surface of the semiconductor wafer and conductive vias. A first portion of the second insulating layer is removed by LDA, while leaving a second portion of the second insulating layer over the surface of the semiconductor wafer around the conductive vias. An electroless plated bump is formed over the conductive vias. | 06-13-2013 |
20130161824 | Semiconductor Device and Method of Forming Insulating Layer in Notches Around Conductive TSV for Stress Relief - A semiconductor device has a plurality of conductive vias formed into a semiconductor wafer. A portion of the semiconductor wafer is removed so the conductive vias extend above a surface of the semiconductor wafer. A notch is formed in the semiconductor wafer around each of the conductive vias. The notch around the conductive vias can be formed by wet etching, dry etching, or LDA. A first insulating layer is formed over a surface of the semiconductor wafer and conductive vias and into the notch to provide stress relief between the conductive vias and semiconductor wafer. A portion of the first insulating layer is removed to expose the conductive vias. A first conductive layer and second insulating layer can be formed around the conductive vias. A second conductive layer can be formed over the conductive vias. The notch can extend into the second insulating layer. | 06-27-2013 |
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 |
20140103527 | Semiconductor Device and Method of Forming a POP Device with Embedded Vertical Interconnect Units - A semiconductor device has a substrate. A plurality of conductive vias is formed through the substrate. A conductive layer is formed over the substrate. An insulating layer is formed over conductive layer. A portion of the substrate is removed to expose the conductive vias. A plurality of vertical interconnect structures is formed over the substrate. A first semiconductor die is disposed over the substrate. A height of the vertical interconnect structures is less than a height of the first semiconductor die. An encapsulant is deposited over the first semiconductor die and the vertical interconnect structures. A first portion of the encapsulant is removed from over the first semiconductor die while leaving a second portion of the encapsulant over the vertical interconnect structures. The second portion of the encapsulant is removed to expose the vertical interconnect structures. A second semiconductor die is disposed over the first semiconductor die. | 04-17-2014 |
20140159251 | Semiconductor Device and Method of Forming Low Profile Fan-Out Package with Vertical Interconnection Units - A semiconductor device includes a semiconductor die. A first interconnect structure is disposed over a peripheral region of the semiconductor die. A semiconductor component is disposed over the semiconductor die. The semiconductor component includes a second interconnect structure. The semiconductor component is disposed over the semiconductor die to align the second interconnect structure with the first interconnect structure. The first interconnect structure includes a plurality of interconnection units disposed around first and second adjacent sides of the semiconductor die to form an L-shape border of the interconnection units around the semiconductor die. A third interconnect structure is formed over the semiconductor die perpendicular to the first interconnect structure. An insulating layer is formed over the semiconductor die and first interconnect structure. A plurality of vias is formed through the insulating layer and into the first interconnect structure with the second interconnect structure disposed within the vias. | 06-12-2014 |
20140264851 | Semiconductor Device and Method of Forming UBM Structure on Back Surface of TSV Semiconductor Wafer - A semiconductor device has a plurality of conductive vias formed through the semiconductor die with a first insulating layer around the conductive vias. A recess is formed in the first insulating layer around the conductive vias by LDA. A portion of the semiconductor wafer is removed by LDA after forming the recess in the first insulating layer so that the conductive vias extend above a surface of the semiconductor wafer. The first insulating layer extends to the surface of the semiconductor wafer or above the surface of the semiconductor wafer. A second insulating layer is formed over the surface of the semiconductor wafer and conductive vias. A first portion of the second insulating layer is removed by LDA, while leaving a second portion of the second insulating layer over the surface of the semiconductor wafer around the conductive vias. An electroless plated bump is formed over the conductive vias. | 09-18-2014 |
20150054151 | 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. | 02-26-2015 |