Patent application number | Description | Published |
20120270369 | Methods for Lead Free Solder Interconnections for Integrated Circuits - Methods for forming lead free solder interconnections for integrated circuits. A copper column extends from an input/output terminal of an integrated circuit. A cap layer of material is formed on the input/output terminal of the integrated circuit. A lead free solder connector is formed on the cap layer. A substrate having a metal finish solder pad is aligned with the solder connector. An intermetallic compound is formed at the interface between the cap layer and the lead free solder connector. A solder connection is formed between input/output terminal of the integrated circuit and the metal finish pad that is less than 0.5 weight percent copper, and the intermetallic compound is substantially free of copper. | 10-25-2012 |
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 |
20130288473 | Electrical Connection Structure - A structure comprises a top metal connector formed underneath a bond pad. The bond pad is enclosed by a first passivation layer and a second passivation layer. A polymer layer is further formed on the second passivation layer. The dimension of an opening in the first passivation layer is less than the dimension of the top metal connector. The dimension of the top metal connector is less than the dimensions of an opening in the second passivation layer and an opening in the polymer layer. | 10-31-2013 |
20130320524 | Design Scheme for Connector Site Spacing and Resulting Structures - A system and method for preventing cracks in a passivation layer is provided. In an embodiment a contact pad has a first diameter and an opening through the passivation layer has a second diameter, wherein the first diameter is greater than the second diameter by a first distance of about 10 μm. In another embodiment, an underbump metallization is formed through the opening, and the underbump metallization has a third diameter that is greater than the first diameter by a second distance of about 5 μm. In yet another embodiment, a sum of the first distance and the second distance is greater than about 15 μm. | 12-05-2013 |
20140035148 | Bump on Pad (BOP) Bonding structure - The embodiments described above provide enlarged overlapping surface areas of bonding structures between a package and a bonding substrate. By using elongated bonding structures on either the package and/or the bonding substrate and by orienting such bonding structures, the bonding structures are designed to withstand bonding stress caused by thermal cycling to reduce cold joints. | 02-06-2014 |
20140048929 | Bonded Structures for Package and Substrate - The embodiments described provide elongated bonded structures near edges of packaged structures free of solder wetting on sides of copper posts substantially facing the center of the packaged structures. Solder wetting occurs on other sides of copper posts of these bonded structures. The elongated bonded structures are arranged in different arrangements and reduce the chance of shorting between neighboring bonded structures. In addition, the elongated bonded structures improve the reliability performance. | 02-20-2014 |
20140070402 | Stress Reduction Apparatus - A structure comprises a plurality of connectors formed on a top surface of a first semiconductor die, a second semiconductor die formed on the first semiconductor die and coupled to the first semiconductor die through the plurality of connectors and a first dummy conductive plane formed between an edge of the first semiconductor die and the plurality of connectors, wherein an edge of the first dummy conductive plane and a first distance to neutral point (DNP) direction form a first angle, and wherein the first angle is less than or equal to 45 degrees. | 03-13-2014 |
20140117534 | Interconnection Structure - A structure comprises a first passivation layer formed over a substrate, a second passivation layer formed over the first passivation layer, wherein the second passivation layer includes a first opening with a first dimension, a bond pad embedded in the first passivation layer and the second passivation layer, a protection layer formed on the second passivation layer comprising a second opening with a second dimension, wherein the second dimension is greater than the first dimension and a connector formed on the bond pad. | 05-01-2014 |
20140124947 | Methods and Apparatus for Flip Chip Substrate with Guard Rings Outside of a Die Attach Region - Methods and apparatus for flip chip substrates with guard rings. An embodiment comprises a substrate core with a die attach region for attaching an integrated circuit die; at least one dielectric layer overlying a die side surface of the substrate core; and at least one guard ring formed adjacent a corner of the substrate core, the at least one guard ring comprising: a first trace overlying the dielectric layer having rectangular portions extending in two directions from the corner of the substrate core and in parallel to the edges of the substrate core; a second trace underlying the dielectric layer; and at least one via extending through the dielectric layer and coupling the first and second traces; wherein the first trace, the at least one via, and the second trace form a vertical via stack. Methods for forming the flip chip substrates with the guard rings are disclosed. | 05-08-2014 |
20140159203 | Substrate Pad Structure - A structure comprises a first pad protruding over a top surface of a package substrate, wherein the first pad is of a first elongated shape, a second pad embedded in the package substrate, wherein the second pad is of a second elongated shape and a via coupled between the first pad and the second pad. | 06-12-2014 |
20140191390 | Metal Routing Architecture for Integrated Circuits - A device includes a substrate, a metal pad over the substrate, and a metal trace electrically disconnected from the metal pad. The metal pad and the metal trace are level with each other. A passivation layer includes a portion overlapping an edge portion of the metal pad. A metal pillar is overlying the metal pad, and is electrically connected to the metal pad. The metal trace has a portion overlapped by the metal pillar. | 07-10-2014 |
20140191391 | ELONGATED BUMP STRUCTURES IN PACKAGE STRUCTURE - A package structure includes a chip attached to a substrate. The chip includes a bump structure including a conductive pillar having a length (L) measured along a long axis of the conductive pillar and a width (W) measured along a short axis of the conductive pillar. The substrate includes a pad region and a mask layer overlying the pad region, wherein the mask layer has an opening exposing a portion of the pad region. The chip is attached to the substrate to form an interconnection between the conductive pillar and the pad region. The opening has a first dimension (d1) measured along the long axis and a second dimension (d2) measured along the short axis. In an embodiment, L is greater than d1, and W is less than d2. | 07-10-2014 |
20140231987 | Connector Structures of Integrated Circuits - A die includes a substrate, a metal pad over the substrate, and a passivation layer covering edge portions of the metal pad. A metal pillar is formed over the metal pad. A portion of the metal pillar overlaps a portion of the metal pad. A center of the metal pillar is misaligned with a center of the metal pad. | 08-21-2014 |
20140231994 | APPARATUS FOR LEAD FREE SOLDER INTERCONNECTIONS FOR INTEGRATED CIRCUITS - An apparatus includes an integrated circuit having at least one input/output terminal comprising copper formed thereon. A metal cap layer overlies an upper surface of the at least one input/output terminal. A substrate includes at least one conductive trace formed on a first surface, and a metal finish layer overlies a portion of the at least one conductive trace. A lead free solder connection is disposed between the metal cap layer and the metal finish layer, and a first intermetallic compound is disposed at an interface between the metal cap layer and the lead free solder connection. The lead free solder connection has a copper content of less than 0.5 wt. %, and the first intermetallic compound is substantially free of copper. | 08-21-2014 |
20140377946 | Bonded Structures for Package and Substrate - The embodiments described provide elongated bonded structures near edges of packaged structures free of solder wetting on sides of copper posts substantially facing the center of the packaged structures. Solder wetting occurs on other sides of copper posts of these bonded structures. The elongated bonded structures are arranged in different arrangements and reduce the chance of shorting between neighboring bonded structures. In addition, the elongated bonded structures improve the reliability performance. | 12-25-2014 |