Patent application number | Description | Published |
20140097496 | GUARD RINGS ON FIN STRUCTURES - A device includes a semiconductor substrate, isolation regions extending into the semiconductor substrate, a plurality of semiconductor fins higher than top surfaces of the isolation regions, and a plurality of gate stacks. Each of the gate stacks includes a gate dielectric on a top surface and sidewalls of one of the plurality of semiconductor fin, and a gate electrode over the gate dielectric. The device further includes a plurality of semiconductor regions, each disposed between and contacting two neighboring ones of the plurality of semiconductor fins. The device further includes a plurality of contact plugs, each overlying and electrically coupled to one of the plurality of semiconductor regions. An electrical connection electrically interconnects the plurality of semiconductor regions and the gate electrodes of the plurality of gate stacks. | 04-10-2014 |
20140141586 | Guard Rings on Fin Structures - A device includes a semiconductor substrate, isolation regions extending into the semiconductor substrate, a plurality of semiconductor fins higher than top surfaces of the isolation regions, and a plurality of gate stacks. Each of the gate stacks includes a gate dielectric on a top surface and sidewalls of one of the plurality of semiconductor fin, and a gate electrode over the gate dielectric. The device further includes a plurality of semiconductor regions, each disposed between and contacting two neighboring ones of the plurality of semiconductor fins. The device further includes a plurality of contact plugs, each overlying and electrically coupled to one of the plurality of semiconductor regions. An electrical connection electrically interconnects the plurality of semiconductor regions and the gate electrodes of the plurality of gate stacks. | 05-22-2014 |
20140183641 | HIGH EFFICIENCY FINFET DIODE - Disclosed are a FinFET diode of high efficiency, designed to resolve the degradation problem with a conventional FinFET diode arising from reduced active area, and a method of fabrication. The FinFET diode has a doped substrate, two spaced-apart groups of substantially parallel, equally-spaced, elongated semiconductor fin structures, dielectric layers formed between the two groups and among the fin structures for insulation, a plurality of substantially equal-spaced and parallel elongated gate structures perpendicularly traversing both groups of the fin structures, and two groups of semiconductor strips respectively formed lengthwise upon the two groups of the fin structures. The two groups of semiconductor strips are doped to have opposite conductivity types, p-type and n-type. The FinFET diode further has metal contacts formed upon the semiconductor strips. In an embodiment, the semiconductor strips may be integrally formed with the fin structures by epitaxial growth and in-situ doped. | 07-03-2014 |
20150123246 | Bipolar Junction Transistor Formed on Fin Structures - A Bipolar Junction Transistor (BJT) includes an elongated collector line, an elongated emitter line parallel to the collector line, and an elongated base line parallel to the collector line and positioned between the collector line and the base line. The emitter line, the base line, and the collector line are formed over fin structures. | 05-07-2015 |
20150179524 | Fin-Like Field Effect Transistor (FINFET) Based, Metal-Semiconductor Alloy Fuse Device And Method Of Manufacturing Same - A fuse device and method for fabricating the fuse device is disclosed. An exemplary fuse device includes a first contact and a second contact coupled with a metal-semiconductor alloy layer, wherein the metal-semiconductor alloy layer extends continuously between the first contact and the second contact. The metal-semiconductor alloy layer is disposed over an epitaxial layer that is disposed over a fin structure of a substrate. | 06-25-2015 |
20150255351 | Guard Rings on Fin Structures - A method includes forming a gate stack over a semiconductor fin, wherein the semiconductor fin forms a ring, and etching a portion of the semiconductor fin not covered by the gate stack to form a recess. The method further includes performing an epitaxy to grow an epitaxy semiconductor region from the recess, forming a first contact plug overlying and electrically coupled to the epitaxy semiconductor region, and forming a second contact plug, wherein the second contact plug is overlying and electrically coupled to the gate stack. | 09-10-2015 |
20160005660 | High Efficiency FinFET Diode - Disclosed are methods to form a FinFET diode of high efficiency, designed to resolve the degradation problem with a conventional FinFET diode arising from reduced active area, and a method of fabrication. The FinFET diode has a doped substrate, two spaced-apart groups of substantially parallel, equally-spaced, elongated semiconductor fin structures, dielectric layers formed between the two groups and among the fin structures for insulation, a plurality of substantially equal-spaced and parallel elongated gate structures perpendicularly traversing both groups of the fin structures, and two groups of semiconductor strips respectively formed lengthwise upon the two groups of the fin structures. The two groups of semiconductor strips are doped to have opposite conductivity types, p-type and n-type. The FinFET diode further has metal contacts formed upon the semiconductor strips. In an embodiment, the semiconductor strips may be integrally formed with the fin structures by epitaxial growth and in-situ doped. | 01-07-2016 |
20160056230 | GUARD RING STRUCTURE AND METHOD OF FORMING THE SAME - A circuit device includes core circuitry. The circuit device further includes a first set of guard rings having a first dopant type, the first set of guard rings being around a periphery of the core circuitry, the first set of guard rings comprising a first guard ring and a second guard ring. The circuit device further includes a second set of guard rings having a second dopant type, the second dopant type being opposite to the first dopant type, wherein at least one guard ring of the second set of guard rings is around a periphery of at least one guard ring of the first set of guard rings, and the second set of guard rings comprises a third guard ring and a fourth guard ring. | 02-25-2016 |