Patent application number | Description | Published |
20100187670 | On-Chip Heat Spreader - A three dimensional (3D) stacked chip structure with chips having on-chip heat spreader and method of forming are described. A 3D stacked chip structure comprises a first die having a first substrate with a dielectric layer formed on a front surface. One or more bonding pads and a heat spreader may be simultaneously formed in the dielectric layer. The first die is bonded with corresponding bond pads on a surface of a second die to form a stacked chip structure. Heat generated in the stacked chip structure may be diffused to the edges of the stacked chip structure through the heat spreader. | 07-29-2010 |
20100187671 | Forming Seal Ring in an Integrated Circuit Die - The formation of a seal ring in a semiconductor integrated circuit (IC) die is described. Through-silicon vias (TSVs) are typically formed in a semiconductor IC die to facilitate the formation of a three dimensional (3D) stacking die structure. The TSVs may be utilized to provide electrical connections between components in different dies of the 3D stacking die structure. A seal ring is formed in the inter-metal dielectric (IMD) layers of an IC die, enclosing an active circuit region. The real ring is formed prior to the formation of the TSVs, preventing moistures or other undesired chemical agents from diffusing into the active circuit region during the subsequent processes of forming TSVs. | 07-29-2010 |
20120112322 | Seal Ring in an Integrated Circuit Die - The formation of a seal ring in a semiconductor integrated circuit (IC) die is described. Through-silicon vias (TSVs) are typically formed in a semiconductor IC die to facilitate the formation of a three dimensional (3D) stacking die structure. The TSVs may be utilized to provide electrical connections between components in different dies of the 3D stacking die structure. A seal ring is formed in the inter-metal dielectric (IMD) layers of an IC die, enclosing an active circuit region. The real ring is formed prior to the formation of the TSVs, preventing moistures or other undesired chemical agents from diffusing into the active circuit region during the subsequent processes of forming TSVs. | 05-10-2012 |
20130154048 | Guard Ring for Through Vias - A guard ring for a through via, and a method of manufacture thereof, is provided. The guard ring comprises one or more rings around a through via, wherein the rings may be, for example, circular, rectangular, octagon, elliptical, square, or the like. The guard ring may be formed from a contact through an inter-layer dielectric layer and interconnect structures (e.g., vias and lines) extending through the inter-metal dielectric layers. The guard ring may contact a well formed in the substrate. | 06-20-2013 |
20130207200 | INTEGRATED CIRCUIT HAVING THINNER GATE DIELECTRIC AND METHOD OF MAKING - An integrated circuit including a first transistor having a first gate dielectric layer with a first thickness. The integrated circuit also includes a second transistor having a second gate dielectric layer with a second thickness and the second transistor is configured to electrically connect to the first transistor. The integrated circuit also includes a third transistor having a third gate dielectric layer with a third thickness and the third transistor is configured to electrically connect to at least one of the first transistor or the second transistor. The first thickness, the second thickness and the third thickness of the integrated circuit are all different. | 08-15-2013 |
20130228826 | MOS Devices with Modulated Performance and Methods for Forming the Same - A device includes a semiconductor substrate, a first Metal-Oxide-Semiconductor (MOS) device, and a second MOS device of a same conductivity as the first MOS device. The first MOS device includes a first gate stack over the semiconductor substrate, and a first stressor adjacent to the first gate stack and extending into the semiconductor substrate. The first stressor and the first gate stack have a first distance. The second MOS device includes a second gate stack over the semiconductor substrate, and a second stressor adjacent to the second gate stack and extending into the semiconductor substrate. The second stressor and the second gate stack have a second distance greater than the first distance. | 09-05-2013 |
20140054761 | On-Chip Heat Spreader - A three dimensional (3D) stacked chip structure with chips having on-chip heat spreader and method of forming are described. A 3D stacked chip structure comprises a first die having a first substrate with a dielectric layer formed on a front surface. One or more bonding pads and a heat spreader may be simultaneously formed in the dielectric layer. The first die is bonded with corresponding bond pads on a surface of a second die to form a stacked chip structure. Heat generated in the stacked chip structure may be diffused to the edges of the stacked chip structure through the heat spreader. | 02-27-2014 |
20140361364 | DOPED PROTECTION LAYER FOR CONTACT FORMATION - Embodiments of mechanisms for forming a semiconductor device are provided. The semiconductor device includes a semiconductor substrate having a first doped region and a second doped region, and a gate stack formed on the semiconductor substrate. The semiconductor device also includes a main spacer layer formed on a sidewall of the gate stack. The semiconductor device further includes a protection layer formed between the main spacer layer and the semiconductor substrate, and the protection layer is doped with a quadrivalent element. In addition, the semiconductor device includes an insulating layer formed on the semiconductor substrate and the gate stack, and a contact formed in the insulating layer. The contact has a first portion contacting the first doped region and has a second portion contacting the second doped region. The first region extends deeper into the semiconductor substrate than the second portion. | 12-11-2014 |
20150048516 | INTEGRATED CIRCUIT WITH A SIDEWALL LAYER AND AN ULTRA-THICK METAL LAYER AND METHOD OF MAKING - An integrated circuit that includes a substrate, a metal layer over the substrate and a first dielectric layer over the metal layer. The first dielectric layer includes a via. A sidewall layer that includes a silicon compound is in the via. A second dielectric layer is over the sidewall layer and an ultra-thick metal (UTM) layer is in the via. | 02-19-2015 |