Patent application number | Description | Published |
20090065898 | INTEGRATED BEOL THIN FILM RESISTOR - In the course of forming a resistor in the back end of an integrated circuit, an intermediate dielectric layer is deposited and a trench etched through it and into a lower dielectric layer by a controllable amount, so that the top of a resistor layer deposited in the trench is close in height to the top of the lower dielectric layer; the trench is filled and the resistor layer outside the trench is removed, after which a second dielectric layer is deposited. Vias passing through the second dielectric layer to contact the resistor then have the same depth as vias contacting metal interconnects in the lower dielectric layer. A tri-layer resistor structure is employed in which the resistive film is sandwiched between two protective layers that block diffusion between the resistor and BEOL ILD layers. | 03-12-2009 |
20100009509 | DUAL-DAMASCENE PROCESS TO FABRICATE THICK WIRE STRUCTURE - A method and semiconductor device. In the method, at least one partial via is etched in a stacked structure and a border is formed about the at least one partial via. The method further includes performing thick wiring using selective etching while continuing via etching to at least one etch stop layer. | 01-14-2010 |
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 |
20120184081 | PROCESS FOR SINGLE AND MULTIPLE LEVEL METAL-INSULATOR-METAL INTEGRATION WITH A SINGLE MASK - A method of fabricating a MIM capacitor is provided. The method includes providing a substrate including a dielectric layer formed on a first conductive layer and a second conductive layer formed over the dielectric layer, and patterning a mask on the second conductive layer. Exposed portions of the second conductive layer are removed to form an upper plate of a MIM capacitor having edges substantially aligned with respective edges of the mask. The upper plate is undercut so that edges of the upper plate are located under the mask. Exposed portions of the dielectric layer and the first conductive layer are removed using the mask to form a capacitor dielectric layer and a lower plate of the MIM capacitor having edges substantially aligned with respective edges of the mask. | 07-19-2012 |
20120190164 | DUAL-DAMASCENE PROCESS TO FABRICATE THICK WIRE STRUCTURE - A method and semiconductor device. In the method, at least one partial via is etched in a stacked structure and a border is formed about the at least one partial via. The method further includes performing thick wiring using selective etching while continuing via etching to at least one etch stop layer. | 07-26-2012 |
20120214280 | HEAT SINK FOR INTEGRATED CIRCUIT DEVICES - A resistor with heat sink is provided. The heat sink includes a conductive path having metal or other thermal conductor having a high thermal conductivity. To avoid shorting the electrical resistor to ground with the thermal conductor, a thin layer of high thermal conductivity electrical insulator is interposed between the thermal conductor and the body of the resistor. Accordingly, a resistor can carry large amounts of current because the high conductivity thermal conductor will conduct heat away from the resistor to a heat sink. Various configurations of thermal conductors and heat sinks are provided offering good thermal conductive properties in addition to reduced parasitic capacitances and other parasitic electrical effects, which would reduce the high frequency response of the electrical resistor. | 08-23-2012 |
20120261724 | STACKABLE PROGRAMMABLE PASSIVE DEVICE AND A TESTING METHOD - A programmable passive device comprising a first node and a second node. A plurality of passive device elements electrically coupled to the first node. A plurality of switches are electrically coupled to at least the second node and selectively coupled to a number of the plurality of passive device elements to provide the programmable passive device with a pre-determined value. | 10-18-2012 |
20140151899 | DUAL-DAMASCENE PROCESS TO FABRICATE THICK WIRE STRUCTURE - A method and a semiconductor device are provided. The semiconductor device includes a partial via etched in a stacked structure and a trough above the partial via. The method includes performing thick wiring using selective etching while etching the partial via to an etch stop layer. | 06-05-2014 |