Patent application number | Description | Published |
20100314758 | THROUGH-SILICON VIA STRUCTURE AND A PROCESS FOR FORMING THE SAME - A through-silicon via (TSV) structure and process for forming the same are disclosed. A semiconductor substrate has a front surface and a back surface, and a TSV structure is formed to extend through the semiconductor substrate. The TSV structure includes a metal layer, a metal seed layer surrounding the metal layer, a barrier layer surrounding the metal seed layer, and a metal silicide layer formed in a portion sandwiched between the metal layer and the metal seed layer. | 12-16-2010 |
20110108986 | THROUGH-SILICON VIA STRUCTURE AND A PROCESS FOR FORMING THE SAME - A semiconductor substrate has a front surface and a back surface, and a TSV structure is formed to extend through the semiconductor substrate. The TSV structure includes a metal layer, a metal seed layer surrounding the metal layer, a barrier layer surrounding the metal seed layer, and a block layer formed in a portion sandwiched between the metal layer and the metal seed layer. The block layer includes magnesium (Mg), iron (Fe), cobalt (Co), nickel (Ni), titanium (Ti), chromium (Cr), tantalum (Ta), tungsten (W), cadmium (Cd), or combinations thereof. | 05-12-2011 |
20110193221 | 3DIC Architecture with Interposer for Bonding Dies - A device includes an interposer, which includes a substrate having a top surface. An interconnect structure is formed over the top surface of the substrate, wherein the interconnect structure includes at least one dielectric layer, and metal features in the at least one dielectric layer. A plurality of through-substrate vias (TSVs) is in the substrate and electrically coupled to the interconnect structure. A first die is over and bonded onto the interposer. A second die is bonded onto the interposer, wherein the second die is under the interconnect structure. | 08-11-2011 |
20110241040 | NOVEL SEMICONDUCTOR PACKAGE WITH THROUGH SILICON VIAS - The substrate with through silicon plugs (or vias) described above removes the need for conductive bumps. The process flow is very simple and cost efficient. The structures described combines the separate TSV, redistribution layer, and conductive bump structures into a single structure. By combining the separate structures, a low resistance electrical connection with high heat dissipation capability is created. In addition, the substrate with through silicon plugs (or vias, or trenches) also allows multiple chips to be packaged together. A through silicon trench can surround the one or more chips to provide protection against copper diffusing to neighboring devices during manufacturing. In addition, multiple chips with similar or different functions can be integrated on the TSV substrate. Through silicon plugs with different patterns can be used under a semiconductor chip(s) to improve heat dissipation and to resolve manufacturing concerns. | 10-06-2011 |
20110241061 | HEAT DISSIPATION BY THROUGH SILICON PLUGS - The package substrates with through silicon plugs (or vias) described above provide lateral and vertical heat dissipation pathways for semiconductor chips that require thermal management. Designs of through silicon plugs (TSPs) with high duty ratios can most effectively provide heat dissipation. TSP designs with patterns of double-sided combs can provide high duty ratios, such as equal to or greater than 50%. Package substrates with high duty ratios are useful for semiconductor chips that generate large amount of heat. An example of such semiconductor chip is a light-emitting diode (LED) chip. | 10-06-2011 |
20110285005 | PACKAGE SYSTEMS HAVING INTERPOSERS - A package system includes a first integrated circuit disposed over an interposer. The interposer includes at least one molding compound layer including a plurality of electrical connection structures through the at least one molding compound layer. A first interconnect structure is disposed over a first surface of the at least one molding compound layer and electrically coupled with the plurality of electrical connection structures. The first integrated circuit is electrically coupled with the first interconnect structure. | 11-24-2011 |
20120007154 | TSV Formation Processes Using TSV-Last Approach - A device includes a semiconductor substrate having a front surface and a back surface opposite the front surface. An insulation region extends from the front surface into the semiconductor substrate. An inter-layer dielectric (ILD) is over the insulation region. A landing pad extends from a top surface of the ILD into the insulation region. A through-substrate via (TSV) extends from the back surface of the semiconductor substrate to the landing pad. | 01-12-2012 |
20120068218 | THERMALLY EFFICIENT PACKAGING FOR A PHOTONIC DEVICE - The present disclosure provides a method of packaging for a photonic device, such as a light-emitting diode device. The packaging includes an insulating structure. The packaging includes first and second conductive structures that each extend through the insulating structure. A substantial area of a bottom surface of the light-emitting diode device is in direct contact with a top surface of the first conductive structure. A top surface of the light-emitting diode device is bonded to the second conductive structure through a bonding wire. | 03-22-2012 |
20120083116 | Cost-Effective TSV Formation - A device includes a substrate having a first surface, and a second surface opposite the first surface. A through-substrate via (TSV) extends from the first surface to the second surface of the substrate. A dielectric layer is disposed over the substrate. A metal pad is disposed in the dielectric layer and physically contacting the TSV, wherein the metal pad and the TSV are formed of a same material, and wherein no layer formed of a material different from the same material is between and spacing the TSV and the metal pad apart from each other. | 04-05-2012 |
20130093042 | TSV Formation Processes Using TSV-Last Approach - A device includes a semiconductor substrate having a front surface and a back surface opposite the front surface. An insulation region extends from the front surface into the semiconductor substrate. An inter-layer dielectric (ILD) is over the insulation region. A landing pad extends from a top surface of the ILD into the insulation region. A through-substrate via (TSV) extends from the back surface of the semiconductor substrate to the landing pad. | 04-18-2013 |
20130140690 | TSV Structures and Methods for Forming the Same - A device includes a substrate having a front side and a backside, a through-via extending from the backside to the front side of the substrate, and a conductive pad on the backside of the substrate and over the through-via. The conductive pad has a substantially planar top surface. A conductive bump has a non-planar top surface over the substantially planar top surface and aligned to the through-via. The conductive bump and the conductive pad are formed of a same material. No interface is formed between the conductive bump and the conductive pad. | 06-06-2013 |
20130171772 | THROUGH-SILICON VIA STRUCTURE FORMATION PROCESS - In a process, an opening is formed to extend from a front surface of a semiconductor substrate through a part of the semiconductor substrate. A metal seed layer is formed on a sidewall of the opening. A block layer is formed on only a portion of the metal seed layer. A metal layer is formed on the block layer and the metal seed layer to fill the opening. | 07-04-2013 |
20130285244 | Through Silicon Via with Embedded Barrier Pad - A system and method are disclosed for providing a through silicon via (TSV) with a barrier pad deposited below the top surface of the TSV, the top surface having reduced topographic variations. A bottom TSV pad is deposited into a via and then polished so the top surface is below the substrate top surface. A barrier pad is then deposited in the via, and a top TSV pad deposited on the barrier pad. The top TSV barrier pad is polished to bring the top surface of the top TSV pad about level with the substrate. The barrier pad may be less than about 1 microns thick, and the top TSV pad may be less than about 6 microns thick. The barrier pad may be a dissimilar metal from the top and bottom TSV pads, and may be selected from a group comprising titanium, tantalum, cobalt, nickel and the like. | 10-31-2013 |
20130302979 | METHOD OF MANUFACTURING A SEMICONDUCTOR DEVICE INCLUDING THROUGH SILICON PLUGS - A method of making a semiconductor device, the method includes forming a first opening and a second opening in a substrate. The method further includes forming a conductive material in the first opening and in the second opening, the conductive material comprising a joined portion where the conductive material in the first opening and the conductive material in the second opening are electrically and thermally connected together at a first surface of the substrate. The method further includes reducing a thickness of the substrate from a second surface of the substrate, opposite the first surface, to expose the conductive material in the first opening and the conductive material in the second opening. The method further includes connecting a device to the second surface of the substrate. | 11-14-2013 |
20140077374 | Through Via Structure and Method - An apparatus comprises a through via formed in a substrate. The through via is coupled between a first side and a second side of the substrate. The through via comprises a bottom portion adjacent to the second side of the substrate, wherein the bottom portion is formed of a conductive material. The through via further comprises sidewall portions formed of the conductive material and a middle portion formed between the sidewall portions, wherein the middle portion is formed of a dielectric material. | 03-20-2014 |
20140287581 | Through Silicon Via with Embedded Barrier Pad - A system and method are disclosed for providing a through silicon via (TSV) with a barrier pad deposited below the top surface of the TSV, the top surface having reduced topographic variations. A bottom TSV pad is deposited into a via and then polished so the top surface is below the substrate top surface. A barrier pad is then deposited in the via, and a top TSV pad deposited on the barrier pad. The top TSV barrier pad is polished to bring the top surface of the top TSV pad about level with the substrate. The barrier pad may be less than about 1 microns thick, and the top TSV pad may be less than about 6 microns thick. The barrier pad may be a dissimilar metal from the top and bottom TSV pads, and may be selected from a group comprising titanium, tantalum, cobalt, nickel and the like. | 09-25-2014 |
20140342547 | TSV Structures and Methods for Forming the Same - A device includes a substrate having a front side and a backside, a through-via extending from the backside to the front side of the substrate, and a conductive pad on the backside of the substrate and over the through-via. The conductive pad has a substantially planar top surface. A conductive bump has a non-planar top surface over the substantially planar top surface and aligned to the through-via. The conductive bump and the conductive pad are formed of a same material. No interface is formed between the conductive bump and the conductive pad. | 11-20-2014 |
20150035159 | SEMICONDUCTOR DEVICE HAVING BACKSIDE INTERCONNECT STRUCTURE ON THROUGH SUBSTRATE VIA AND METHOD OF FORMING THE SAME - A semiconductor device includes a through-substrate via extending from a frontside to a backside of a semiconductor substrate. The through-substrate via includes a concave or a convex portion adjacent to the backside of the semiconductor substrate. An isolation film is formed on the backside of the semiconductor substrate. A conductive layer includes a first portion formed on the concave or convex portion of the through substrate via and a second portion formed on the isolation film. A passivation layer partially covers the conductive layer. | 02-05-2015 |
20150054174 | Interconnection Structure with Confinement Layer - An interconnection structure and method disclosed for providing an interconnection structure that includes conductive features having reduced topographic variations. The interconnection structure includes a contact pad disposed over a substrate. The contact pad includes a first layer of a first conductive material and a second layer of a second conductive material over the first layer. The first conductive material and the second conductive material are made of substantially the same material and have a first average grain size and a second average grain size that is smaller than the first average grain size. The interconnection structure also includes a passivation layer covering the substrate and the contact pad, and the passivation layer has an opening exposing the contact pad. | 02-26-2015 |
20150061147 | Device with Through-Substrate Via Structure and Method for Forming the Same - A device including a first dielectric layer on a semiconductor substrate, a gate electrode formed in the first dielectric layer, and a through-substrate via (TSV) structure penetrating the first dielectric layer and extending into the semiconductor substrate. The TSV structure includes a conductive layer, a diffusion barrier layer surrounding the conductive layer and an isolation layer surrounding the diffusion barrier layer. A capping layer including cobalt is formed on the top surface of the conductive layer of the TSV structure. | 03-05-2015 |