Patent application number | Description | Published |
20090140393 | WAFER SCRIBE LINE STRUCTURE FOR IMPROVING IC RELIABILITY - A semiconductor wafer having a multi-layer wiring structure is disclosed. The wafer comprises a plurality of chip die areas arranged on the wafer in an array and scribe line areas between the chip die areas. The scribe lines of a semiconductor wafer having USG top-level wiring layers above ELK wiring layers have at least one metal film structures substantially covering corner regions where two scribe lines intersect to inhibit delamination at the USG/ELK interface during wafer dicing operation. | 06-04-2009 |
20090194889 | BOND PAD STRUCTURE - A bonding pad structure is provided that includes two conductive layers and a connective layer interposing the two conductive layers. The connective layer includes a contiguous, conductive structure. In an embodiment, the contiguous conductive structure is a solid layer of conductive material. In other embodiments, the contiguous conductive structure is a conductive network including, for example, a matrix configuration or a plurality of conductive stripes. At least one dielectric spacer may interpose the conductive network. In an embodiment, the conductive density of the connective layer is between approximately 20% and 100%. | 08-06-2009 |
20090321890 | Protective Seal Ring for Preventing Die-Saw Induced Stress - A semiconductor chip includes a semiconductor substrate; a plurality of low-k dielectric layers over the semiconductor substrate; a first passivation layer over the plurality of low-k dielectric layers; and a second passivation layer over the first passivation layer. A first seal ring is adjacent to an edge of the semiconductor chip, wherein the first seal ring has an upper surface substantially level to a bottom surface of the first passivation layer. A second seal ring is adjacent to the first seal ring and on an inner side of the semiconductor chip than the first seal ring. The second seal ring includes a pad ring in the first passivation layer and the second passivation layer. A trench ring includes at least a portion directly over the first seal ring. The trench ring extends from a top surface of the second passivation layer down to at least an interface between the first passivation layer and the second passivation layer. | 12-31-2009 |
20100025824 | Structure for Reducing Integrated Circuit Corner Peeling - A crack prevention structure that reduces integrated circuit corner peeling and reduces cracking is disclosed. The crack prevention structure comprises a semiconductor substrate; a first plurality of dielectric layers of a first material disposed over the semiconductor substrate; a second plurality of dielectric layers of a second material different than the first material, disposed on the first plurality of dielectric layers, wherein the first plurality of dielectric layers and the second plurality of dielectric layers meet at an interface; and a plurality of metal structures and a plurality of via structures formed through the interface of the first plurality of dielectric layers and the second plurality of dielectric layers. | 02-04-2010 |
20100117080 | SEMICONDUCTOR TEST PAD STRUCTURES - A semiconductor test pad interconnect structure with integrated die-separation protective barriers. The interconnect structure includes a plurality of stacked metal layers each having an electrically conductive test pad separated from other test pads by a dielectric material layer. In one embodiment, at least one metallic via bar is embedded into the interconnect structure and electrically interconnects each of the test pads in the metal layers together. The via bar extends substantially along an entire first side defined by each test pad in some embodiments. In other embodiments, a pair of opposing via bars may be provided that are arranged on opposite sides of a die singulation saw cut line defined in a scribe band on a semiconductor wafer. | 05-13-2010 |
20100123219 | Heat Spreader Structures in Scribe Lines - An integrated circuit structure includes a first chip including a first edge; and a second chip having a second edge facing the first edge. A scribe line is between and adjoining the first edge and the second edge. A heat spreader includes a portion in the scribe line, wherein the heat spreader includes a plurality of vias and a plurality of metal lines. The portion of the heat spreader in the scribe line has a second length at least close to, or greater than, a first length of the first edge. | 05-20-2010 |
20100123246 | Double Solid Metal Pad with Reduced Area - An integrated circuit structure includes a bond pad; an Mtop pad located directly underlying the bond pad; an Mtop-1 pad having at least a portion directly underlying the Mtop pad, wherein at least one of the Mtop pad and the Mtop-1 pad has a horizontal dimension smaller than a horizontal dimension of the bond pad; a plurality of vias interconnecting the Mtop pad and the Mtop-1 pad; and a bond ball on the bond pad. Each of the Mtop pad and the Mtop-1 pad has positive enclosures to the bond ball in all horizontal directions. | 05-20-2010 |
20100187687 | Underbump Metallization Structure - A system and method for forming an underbump metallization (UBM) is presented. A preferred embodiment includes a raised UBM which extends through a passivation layer so as to make contact with a contact pad while retaining enough of the passivation layer between the contact pad and the UBM to adequately handle the peeling and shear stress that results from CTE mismatch and subsequent thermal processing. The UBM contact is preferably formed in either an octagonal ring shape or an array of contacts. | 07-29-2010 |
20100252916 | STRUCTURE FOR IMPROVING DIE SAW QUALITY - A semiconductor device is provided that includes a semiconductor substrate, a plurality of dies formed on the semiconductor substrate, the plurality of dies being separated from one another by a first region extending along a first direction and a second region extending along a second direction different from the first direction, a dummy metal structure formed within a third region that includes a region defined by an intersection of the first region and the second region, a plurality of metal interconnection layers formed over the substrate, and a plurality of dielectric layers formed over the substrate. Each of the metal interconnection layers is disposed within each of the dielectric layers and a dielectric constant of at least one of the dielectric layers is less than about 2.6. | 10-07-2010 |
20100283148 | Bump Pad Structure - An embodiment is a bump bond pad structure that comprises a substrate comprising a top layer, a reinforcement pad disposed on the top layer, an intermediate layer above the top layer, an intermediate connection pad disposed on the intermediate layer, an outer layer above the intermediate layer, and an under bump metal (UBM) connected to the intermediate connection pad through an opening in the outer layer. Further embodiments may comprise a via mechanically coupling the intermediate connection pad to the reinforcement pad. The via may comprise a feature selected from the group consisting of a solid via, a substantially ring-shaped via, or a five by five array of vias. Yet, a further embodiment may comprise a secondary reinforcement pad, and a second via mechanically coupling the reinforcement pad to the secondary reinforcement pad. | 11-11-2010 |
20110018128 | PACKAGE STRUCTURE AND METHOD FOR REDUCING DIELECTRIC LAYER DELAMINATION - A semiconductor package structure is provided. The structure includes a semiconductor chip having a plurality of interconnect layers formed thereover. A first passivation layer is formed over the plurality of interconnect layers. A stress buffer layer is formed over the first passivation layer. A bonding pad is formed over the stress buffer layer. A second passivation layer is formed over a portion of the bonding pad, the second passivation having at least one opening therein exposing a portion of the bonding pad. | 01-27-2011 |
20110127648 | Heat Spreader Structures in Scribe Lines - An integrated circuit structure includes a first chip including a first edge; and a second chip having a second edge facing the first edge. A scribe line is between and adjoining the first edge and the second edge. A heat spreader includes a portion in the scribe line, wherein the heat spreader includes a plurality of vias and a plurality of metal lines. The portion of the heat spreader in the scribe line has a second length at least close to, or greater than, a first length of the first edge. | 06-02-2011 |
20110287627 | SEMICONDUCTOR TEST PAD STRUCTURES - A semiconductor test pad interconnect structure with integrated die-separation protective barriers. The interconnect structure includes a plurality of stacked metal layers each having an electrically conductive test pad separated from other test pads by a dielectric material layer. In one embodiment, at least one metallic via bar is embedded into the interconnect structure and electrically interconnects each of the test pads in the metal layers together. The via bar extends substantially along an entire first side defined by each test pad in some embodiments. In other embodiments, a pair of opposing via bars may be provided that are arranged on opposite sides of a die singulation saw cut line defined in a scribe band on a semiconductor wafer. | 11-24-2011 |
20120175728 | SEAL RING STRUCTURE FOR INTEGRATED CIRCUIT CHIPS - A semiconductor device includes a substrate having a circuit region and a seal ring region. The seal ring region surrounds the circuit region. A seal ring structure is disposed over the seal ring region. The seal ring structure has a first portion and a second portion above the first portion. The first portion has a width W | 07-12-2012 |
20120211902 | BOND PAD STRUCTURE - A bonding pad structure is provided that includes two conductive layers and a connective layer interposing the two conductive layers. The connective layer includes a contiguous, conductive structure. In an embodiment, the contiguous conductive structure is a solid layer of conductive material. In other embodiments, the contiguous conductive structure is a conductive network including, for example, a matrix configuration or a plurality of conductive stripes. At least one dielectric spacer may interpose the conductive network. Conductive plugs may interconnect a bond pad and one of the conductive layers. | 08-23-2012 |
20120235303 | REINFORCEMENT STRUCTURE FOR FLIP-CHIP PACKAGING - The present disclosure provides a carrier substrate, a device including the carrier substrate, and a method of bonding the carrier substrate to a chip. An exemplary device includes a carrier substrate having a chip region and a periphery region, and a chip bonded to the chip region of the carrier substrate. The carrier substrate includes a reinforcement structure embedded within the periphery region. | 09-20-2012 |
20120261662 | INTEGRATED CIRCUIT WITH TEST CIRCUIT - An integrated circuit system comprising a first integrated and at least one of a second integrated circuit, interposer or printed circuit board. The first integrated circuit further comprising a wiring stack, bond pads electrically connected to the wiring stack, and bump balls formed on the bond pads. First portions of the wiring stack and the bond pads form a functional circuit, and second portions of the wiring stack and the bond pads form a test circuit. A portion of the bump balls comprising dummy bump balls. The dummy bump balls electrically connected to the second portions of the wiring stack and the bond pads. The at least one of the second integrated circuit, interposer orprinted circuit board forming a portion of the test circuit. | 10-18-2012 |
20120316164 | METHOD FOR INHIBITING THE GROWTH OF CANCER STEM CELLS - The present invention provides a method for inhibiting the growth of cancer stem cells, particularly colorectal cancer stem cells, liver cancer stem cells, lung cancer stem cells or breast cancer stem cells, comprising administering to a subject in need thereof a therapeutically effective amount of a compound of antimycin A or a pharmaceutically acceptable salt thereof, together with a pharmaceutically acceptable carrier. | 12-13-2012 |
20130147018 | Structure for Reducing Integrated Circuit Corner Peeling - A crack prevention structure that reduces integrated circuit corner peeling and reduces cracking is disclosed. The crack prevention structure comprises a semiconductor substrate; a first plurality of dielectric layers of a first material disposed over the semiconductor substrate; a second plurality of dielectric layers of a second material different than the first material, disposed on the first plurality of dielectric layers, wherein the first plurality of dielectric layers and the second plurality of dielectric layers meet at an interface; and a plurality of metal structures and a plurality of via structures formed through the interface of the first plurality of dielectric layers and the second plurality of dielectric layers. | 06-13-2013 |
20130181347 | Bump Pad Structure - An embodiment is a bump bond pad structure that comprises a substrate comprising a top layer, a reinforcement pad disposed on the top layer, an intermediate layer above the top layer, an intermediate connection pad disposed on the intermediate layer, an outer layer above the intermediate layer, and an under bump metal (UBM) connected to the intermediate connection pad through an opening in the outer layer. Further embodiments may comprise a via mechanically coupling the intermediate connection pad to the reinforcement pad. The via may comprise a feature selected from the group consisting of a solid via, a substantially ring-shaped via, or a five by five array of vias. Yet, a further embodiment may comprise a secondary reinforcement pad, and a second via mechanically coupling the reinforcement pad to the secondary reinforcement pad. | 07-18-2013 |
20130302020 | HEATING DEVICE FOR ELECTRIC WATER HEATER - A heating device for an electric water heater, especially a heating device that can effectively recover waste heat, the device includes a secondary water box provided on one of the top and the bottom sides of a flat type main water box, the secondary water box is communicated with the main water box to guide water of the secondary water box into the main water box; the main and the secondary water boxes are provided therebetween with a laminate electric heating board of which the top and the bottom sides are clung respectively to the secondary water box and the main water box, an effect of preheating the water in the secondary water box is obtained to thereby effectively use the waste heat for saving energy source, and heating efficiency can be increased. | 11-14-2013 |
20140045327 | Double Solid Metal Pad with Reduced Area - An integrated circuit structure includes a bond pad; an Mtop pad located directly underlying the bond pad; an Mtop-1 pad having at least a portion directly underlying the Mtop pad, wherein at least one of the Mtop pad and the Mtop-1 pad has a horizontal dimension smaller than a horizontal dimension of the bond pad; a plurality of vias interconnecting the Mtop pad and the Mtop-1 pad; and a bond ball on the bond pad. Each of the Mtop pad and the Mtop-1 pad has positive enclosures to the bond ball in all horizontal directions. | 02-13-2014 |
20140045841 | METHOD FOR INHIBITING THE GROWTH OF CANCER STEM CELL - The present invention provides a method for inhibiting the growth of cancer stem cells, particularly colorectal cancer stem cells, liver cancer stem cells, lung cancer stem cells or breast cancer stem cells, comprising administering to a subject in need thereof a therapeutically effective amount of a compound of antimycin A or a pharmaceutically acceptable salt thereof, together with a pharmaceutically acceptable carrier. | 02-13-2014 |
20150031200 | Bump Pad Structure - An embodiment is a bump bond pad structure that comprises a substrate comprising a top layer, a reinforcement pad disposed on the top layer, an intermediate layer above the top layer, an intermediate connection pad disposed on the intermediate layer, an outer layer above the intermediate layer, and an under bump metal (UBM) connected to the intermediate connection pad through an opening in the outer layer. Further embodiments may comprise a via mechanically coupling the intermediate connection pad to the reinforcement pad. The via may comprise a feature selected from the group consisting of a solid via, a substantially ring-shaped via, or a five by five array of vias. Yet, a further embodiment may comprise a secondary reinforcement pad, and a second via mechanically coupling the reinforcement pad to the secondary reinforcement pad. | 01-29-2015 |