| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 438389000 | Including doping of trench surfaces | 11 |
| 20080213968 | METHOD FOR FABRICATING CAPACITOR - A method for fabricating a capacitor includes firstly providing a substrate. A doped first dielectric layer and an undoped second dielectric layer are then formed on the substrate sequentially. Next, many trenches are formed in the first and the second dielectric layers. Afterwards, an ion implantation process is performed in the largest space between the adjacent trenches to form an ion-implanted region in a portion of the second dielectric layer in upper parts of the trenches. A wet etching process is then performed to remove a portion of the second dielectric layer in the ion-implanted region and a portion of the first dielectric layer at bottoms of the trenches. Thereafter, a first conductive layer and a capacitor dielectric layer are formed sequentially on surfaces of the trenches. Finally, a second conductive layer is formed in the trenches. | 09-04-2008 |
| 20080254589 | METHOD FOR MANUFACTURING COLLARS OF DEEP TRENCH CAPACITORS - A method for manufacturing collars of deep trench capacitors includes providing a substrate with a deep trench in which there is a trench capacitor in the bottom; forming an inner wall layer completely covering the deep trench and the substrate; forming a hard mask layer on the surface of the inner wall layer; performing a selective implanting but not on the hard mask layer on the wall of the deep trench; performing a selective wet etching to remove the not implanted hard mask layer; and performing an anisotropic dry etching to substantially remove the inner wall layer on the bottom of the deep trench so as to partially expose the trench capacitor and to substantially retain the collars of the deep trench capacitors intact. | 10-16-2008 |
| 20080305605 | METHOD FOR FORMING SURFACE STRAP - A method for forming a surface strap includes forming a deep trench capacitor having a conductive connection layer on its surface in the substrate and the conductive connection layer in contact with the conductive layer; forming a poly-Si layer covering the pad layer and the conductive connection layer; performing a selective ion implantation with an angle to make part of the poly-Si layer an undoped poly-Si layer; removing the undoped poly-Si layer to expose part of the conductive connection layer; etching the exposed conductive connection layer to form a recess; removing the poly-Si layer to make the exposed conductive connection layer a conductive connection strap; filling the recess with an insulation material to form a shallow trench isolation; exposing the conductive layer; and selectively removing the conductive layer to form a first conductive strap which forms the surface strap together with the conductive connection strap. | 12-11-2008 |
| 20090191686 | Method for Preparing Doped Polysilicon Conductor and Method for Preparing Trench Capacitor Structure Using the Same - A method for preparing a doped polysilicon conductor according to this aspect of the present invention comprises the steps of (a) placing a substrate in a reaction chamber, (b) performing a deposition process to form a polysilicon layer on the substrate, (c) performing a grain growth process to form a plurality of polysilicon grains on the polysilicon layer, and (d) performing a dopant diffusion process to diffuse conductive dopants into the polysilicon layer via the polysilicon grains to form the doped polysilicon conductor. | 07-30-2009 |
| 20120302032 | Methods for Forming Strained Channel Dynamic Random Access Memory Devices - DRAM trench capacitors formed by, inter alia, deposition of conductive material into a trench or doping the semiconductor region in which the trench is defined. | 11-29-2012 |
| 20130309835 | RETROGRADE SUBSTRATE FOR DEEP TRENCH CAPACITORS - A method for forming a semiconductor device includes forming a deep trench in a substrate having a first doped portion to a first depth and a second doped portion below the first depth, the deep trench extending below the first depth. A region around the deep trench is doped to form a buried plate where the buried plate includes a dopant type forming an electrically conductive connection with the second doped portion of the substrate and being electrically insulated from the first doped portion. A deep trench capacitor is formed in the deep trench using the buried plate as one electrode of the capacitor. An access transistor is formed to charge or discharge the deep trench capacitor. A well is formed in the first doped portion. | 11-21-2013 |
| 20160064273 | Method for Producing a Conductor Line - A method for producing a rounded conductor line of a semiconductor component is disclosed. In that method, a partially completed semiconductor component is provided. The partially completed semiconductor component has a bottom side and a top side spaced distant from the bottom side in a vertical direction. Also provided is an etchant. On the top side, a dielectric layer is arranged. The dielectric layer has at least two different regions that show different etch rates when they are etched with the etchant. Subsequently, a trench is formed in the dielectric layer such that the trench intersects each of the different regions. Then, the trench is widened by etching the trench with the etchant at different etch rates. By filling the widened trench with an electrically conductive material, a conductor line is formed. | 03-03-2016 |
| 438390000 | Multiple doping steps | 3 |
| 20080293211 | High voltage deep trench capacitor - A semiconductor process and apparatus provide a high voltage deep trench capacitor structure ( | 11-27-2008 |
| 20120064694 | FORMING IMPLANTED PLATES FOR HIGH ASPECT RATIO TRENCHES USING STAGED SACRIFICIAL LAYER REMOVAL - A method of forming a deep trench structure for a semiconductor device includes forming a mask layer over a semiconductor substrate. An opening in the mask layer is formed by patterning the mask layer, and a deep trench is formed in the semiconductor substrate using the patterned opening in the mask layer. A sacrificial fill material is formed over the mask layer and into the deep trench. A first portion of the sacrificial fill material is recessed from the deep trench and a first dopant implant forms a first doped region in the semiconductor substrate. A second portion of the sacrificial fill material is recessed from the deep trench and a second dopant implant forms a second doped region in the semiconductor substrate, wherein the second doped region is formed underneath the first doped region such that the second doped region and the first doped region are contiguous with each other. | 03-15-2012 |
| 20140038382 | Structure And Method To Realize Conformal Doping In Deep Trench Applications - The specification and drawings present a new method, ASIC and computer/software related product (e.g., a computer readable memory) are presented for realizing conformal doping in embedded deep trench applications in the ASIC. A common SOI substrate with intrinsic or low dopant concentration is used for manufacturing such ASICs comprising a logic area having MOSFETs utilizing, for example, ultra thin body and box technology and an eDRAM area having deep trench capacitors with the conformal doping. | 02-06-2014 |
| 438391000 | Including isolation means formed in trench | 1 |
| 20140080281 | Method of Fabricating Isolated Capacitors and Structure Thereof - A structure and method is provided for fabricating isolated capacitors. The method includes simultaneously forming a plurality of deep trenches and one or more isolation trenches surrounding a group or array of the plurality of deep trenches through a SOI and doped poly layer, to an underlying insulator layer. The method further includes lining the plurality of deep trenches and one or more isolation trenches with an insulator material. The method further includes filling the plurality of deep trenches and one or more isolation trenches with a conductive material on the insulator material. The deep trenches form deep trench capacitors and the one or more isolation trenches form one or more isolation plates that isolate at least one group or array of the deep trench capacitors from another group or array of the deep trench capacitors. | 03-20-2014 |
