Class / Patent application number | Description | Number of patent applications / Date published |
257593000 | With means to increase current gain or operating frequency | 6 |
20090206449 | STRESS-MODIFIED DEVICE STRUCTURES, METHODS OF FABRICATING SUCH STRESS-MODIFIED DEVICE STRUCTURES, AND DESIGN STRUCTURES FOR AN INTEGRATED CIRCUIT - Stress-modified device structures, methods of fabricating such stress-modified device structures, and design structures for an integrated circuit. An electrical characteristic of semiconductor devices formed on a common substrate, such as the current gains of bipolar junction transistors, may be altered by modifying stresses in structures indirectly on or over, or otherwise indirectly coupled with, the semiconductor devices. The structures, which may be liners for contacts in a contact level of an interconnect, are physically spaced away from, and not in direct physical contact with, the respective semiconductor devices because at least one additional intervening material or structure is situated between the stress-imparting structures and the stress-modified devices. The intervening materials or structures, such as contacts extending through an insulating layer of a local interconnect level between the contact level and the semiconductor devices, provide paths for the transfer of stress from the stress-imparting structures to the stress-modified semiconductor devices. | 08-20-2009 |
20100013051 | Method Of Forming A Bipolar Transistor And Semiconductor Component Thereof - A semiconductor component is formed using the following processes: (a) forming a first dielectric layer over the semiconductor substrate; (b) forming a base electrode for the bipolar transistor over the dielectric layer; (c) forming an oxide nitride structure over the base electrode; (d) forming a first spacer adjacent to the oxide nitride structure and the base electrode; (e) removing a top layer of the oxide nitride structure; (f) removing a first portion of the dielectric layer; (g) forming an epitaxial layer over the semiconductor substrate; (h) forming a second spacer over the epitaxial layer; and (i) forming an emitter electrode over the epitaxial layer and adjacent to the second spacer. | 01-21-2010 |
20100187657 | BIPOLAR TRANSISTOR WITH BASE-COLLECTOR-ISOLATION WITHOUT DIELECTRIC - The disclosed invention provides a method for the fabrication of a bipolar transistor having a collector region comprised within a semiconductor body separated from an overlying base region by one or more isolation cavities (e.g., air gaps) filled with low permittivity gas. In particular, a multilayer base-collector dielectric film is deposited over the collector region. A base region is formed onto the multilayer dielectric film and is patterned to form one or more base connection regions. The multilayer dielectric film is selectively etched during a plurality of isotropic etch processes to allow for the formation of one or more isolation region between the base connection regions and the collector region, wherein the one or more isolation regions comprise cavities filled with a gas having a low dielectric constant (e.g., air). The resultant bipolar transistor has a reduced base-collector capacitance, thereby allowing for improved frequency properties (e.g., higher maximum frequency operation). | 07-29-2010 |
20100219504 | Four-Terminal Gate-Controlled LVBJTs - An integrated circuit structure includes a well region of a first conductivity type, an emitter of a second conductivity type opposite the first conductivity type over the well region, a collector of the second conductivity type over the well region and substantially encircling the emitter, and a base contact of the first conductivity type over the well region. The base contact is horizontally spaced apart from the emitter by the collector. At least one conductive strip horizontally spaces the emitter, the collector, and the base contact apart from each other. A dielectric layer is directly under, and contacting, the at least one conductive strip. | 09-02-2010 |
20120025352 | BIPOLAR JUNCTION TRANSISTOR DEVICES - A bipolar junction transistor (BJT) device including a base region, an emitter region and a collector region comprises a substrate, a deep well region in the substrate, a first well region in the deep well region to serve as the base region, a second well region in the deep well region to serve as the collector region, the second well region and the first well region forming a first junction therebetween, and a first doped region in the first well region to serve as the emitter region, the first doped region and the first well region forming a second junction therebetween, wherein the first doped region includes a first section extending in a first direction and a second section extending in a second direction different from the first direction, the first section and the second section being coupled with each other. | 02-02-2012 |
20130001747 | BIPOLAR TRANSISTOR AND METHOD FOR MANUFACTURING THE SAME - A method for manufacturing a bipolar transistor includes forming a first epitaxial layer on a semiconductor substrate, forming a second epitaxial layer on the first epitaxial layer, forming an oxide layer on the second epitaxial layer, etching the oxide layer to form an opening in which the second epitaxial layer is exposed, and forming a third epitaxial layer in the opening. The first and third epitaxial layers have a first-type conductivity, and the second epitaxial layer has a second-type conductivity. | 01-03-2013 |