Patent application number | Description | Published |
20080224259 | METHODS OF FABRICATING PASSIVE ELEMENT WITHOUT PLANARIZING AND RELATED SEMICONDUCTOR DEVICE - Methods of fabricating a passive element and a semiconductor device including the passive element are disclosed including the use of a dummy passive element. A dummy passive element is a passive element or wire which is added to the chip layout to aid in planarization but is not used in the active circuit. One embodiment of the method includes forming the passive element and a dummy passive element adjacent to the passive element; forming a dielectric layer over the passive element and the dummy passive element, wherein the dielectric layer is substantially planar between the passive element and the dummy passive element; and forming in the dielectric layer an interconnect to the passive element through the dielectric layer and a dummy interconnect portion overlapping at least a portion of the dummy passive element. The methods eliminate the need for planarizing. | 09-18-2008 |
20080272458 | POST LAST WIRING LEVEL INDUCTOR USING PATTERNED PLATE PROCESS - A semiconductor structure. The semiconductor structure includes: a substrate having a metal wiring level within the substrate; a capping layer on and above the substrate; an insulative layer on and above the capping layer; a first layer of photo-imagable material on and above the insulative layer; a layer of oxide on and above the first layer of photo-imagable material; a second layer of photo-imagable material on and above the layer of oxide; an inductor; and a wire bond pad. A first portion of the inductor is in the second layer of photo-imagable material, the layer of oxide, the first layer of photo-imagable material, the insulative layer, and the capping layer. A second portion of the inductor is in only the second layer of photo-imagable material. The wire bond pad in only the first layer of photo-imagable material, the insulative layer, and the capping layer. | 11-06-2008 |
20080277759 | POST LAST WIRING LEVEL INDUCTOR USING PATTERNED PLATE PROCESS - A semiconductor structure. The semiconductor structure includes: a substrate having a metal wiring level within the substrate; a capping layer on and above a top surface of the substrate; an insulative layer on and above a top surface of the capping layer; an inductor comprising a first portion in and above the insulative layer and a second portion only above the insulative layer; and a wire bond pad within the insulative layer, wherein the first portion the inductor has a height in a first direction greater than a height of the wire bond pad in the first direction, wherein the first direction is perpendicularly directed from the top surface of substrate toward the insulative layer. | 11-13-2008 |
20080290458 | POST LAST WIRING LEVEL INDUCTOR USING PATTERNED PLATE PROCESS - A semiconductor structure. The semiconductor structure includes: a substrate having at least one metal wiring level within the substrate; an insulative layer on a surface of the substrate; an inductor within the insulative layer; and a wire bond pad within the insulative layer. The inductor and the wire bond pad are substantially co-planar. The inductor has a height greater than a height of the wire bond pad. | 11-27-2008 |
20080293210 | POST LAST WIRING LEVEL INDUCTOR USING PATTERNED PLATE PROCESS - A method of forming a semiconductor substrate. A substrate is provided. At least one metal wiring level is within the substrate. A first insulative layer is deposited on a surface of the substrate. A portion of a wire bond pad is formed within the first insulative layer. A second insulative layer is deposited on the first insulative layer. An iductor is within the second insulative layer using a patterned plate process. A remaining portion of the wire bond pad is formed within the second insulative layer, wherein at least a portion of the wire bond pad is substantially co-planar with the inductor. | 11-27-2008 |
20080293233 | POST LAST WIRING LEVEL INDUCTOR USING PATTERNED PLATE PROCESS - A method of a semiconductor device. A substrate is provided. At least one metal wiring level is within the substrate. An insulative layer is deposited on a surface of the substrate. An inductor is formed within the insulative layer using a patterned plate process. A wire bond pad is formed within the insulative layer, wherein at least a portion of the wire bond pad is substantially co-planar with the inductor. | 11-27-2008 |
20090004809 | Method of Integration of a MIM Capacitor with a Lower Plate of Metal Gate Material Formed on an STI Region or a Silicide Region Formed in or on the Surface of a Doped Well with a High K Dielectric Material - A MIM capacitor is formed on a semiconductor substrate having a top surface and including regions formed in the surface selected from a Shallow Trench Isolation (STI) region and a doped well having exterior surfaces coplanar with the semiconductor substrate. A capacitor lower plate is either a lower electrode formed on the STI region in the semiconductor substrate or a lower electrode formed by a doped well formed in the top surface of the semiconductor substrate that may have a silicide surface. A capacitor HiK dielectric layer is formed on or above the lower plate. A capacitor second plate is formed on the HiK dielectric layer above the capacitor lower plate. A dual capacitor structure with a top plate may be formed above the second plate with vias connected to the lower plate protected from the second plate by side wall spacers. | 01-01-2009 |
20110108919 | METHOD OF FABRICATING A PRECISION BURIED RESISTOR - The present invention provides a semiconductor structure including a buried resistor with improved control, in which the resistor is fabricated in a region of a semiconductor substrate beneath a well region that is also present in the substrate. In accordance with the present invention, the inventive structure includes a semiconductor substrate containing at least a well region; and a buried resistor located in a region of the semiconductor substrate that is beneath said well region. The present invention also provides a method of fabricating such a structure in which a deep ion implantation process is used to form the buried resistor and a shallower ion implantation process is used in forming the well region. | 05-12-2011 |
20120133022 | METHODS OF FABRICATING PASSIVE ELEMENT WITHOUT PLANARIZING AND RELATED SEMICONDUCTOR DEVICE - Methods of fabricating a passive element and a semiconductor device including the passive element are disclosed including the use of a dummy passive element. A dummy passive element is a passive element or wire which is added to the chip layout to aid in planarization but is not used in the active circuit. One embodiment of the method includes forming the passive element and a dummy passive element adjacent to the passive element; forming a dielectric layer over the passive element and the dummy passive element, wherein the dielectric layer is substantially planar between the passive element and the dummy passive element; and forming in the dielectric layer an interconnect to the passive element through the dielectric layer and a dummy interconnect portion overlapping at least a portion of the dummy passive element. The methods eliminate the need for planarizing. | 05-31-2012 |