Patent application number | Description | Published |
20130166248 | Monitor Test Key of Epi Profile - A method and apparatus for estimating a height of an epitaxially grown semiconductor material in other semiconductor devices. The method includes epitaxially growing first, second, and third portions of semiconductor material on a first semiconductor device, measuring a height of the third portion of semiconductor material and a height of the first or second portion of semiconductor material, measuring a first saturation current through the first and second portions of semiconductor material, measuring a second saturation current through the first and third portions of semiconductor material, and preparing a model of the first saturation current relative to the height of the first or second portion of semiconductor material and the second saturation current relative to an average of the height of the first and third portions of semiconductor material. The model is used to estimate the height of an epitaxially grown semiconductor material in the other semiconductor devices. | 06-27-2013 |
20130168819 | Fin-like BJT - A bipolar junction transistor (BJT) formed using a fin field-effect transistor (FinFET) complimentary metal-oxide-semiconductor (CMOS) process flow is provided. The BJT includes an emitter fin, a base fin, and a collector fin formed on a substrate. The base fin encloses the emitter fin and collector fin encloses the emitter fin. In some embodiments, the emitter fin, base fin, and collector fin have a square shape when viewed from above and are concentric with each other. | 07-04-2013 |
20130175584 | FinFETs and the Methods for Forming the Same - A method includes providing a plurality of semiconductor fins parallel to each other, and includes two edge fins and a center fin between the two edge fins. A middle portion of each of the two edge fins is etched, and the center fin is not etched. A gate dielectric is formed on a top surface and sidewalls of the center fin. A gate electrode is formed over the gate dielectric. The end portions of the two edge fins and end portions of the center fin are recessed. An epitaxy is performed to form an epitaxy region, wherein an epitaxy material grown from spaces left by the end portions of the two edge fins are merged with an epitaxy material grown from a space left by the end portions of the center fin to form the epitaxy region. A source/drain region is formed in the epitaxy region. | 07-11-2013 |
20130175638 | FINFETS AND THE METHODS FOR FORMING THE SAME - A method includes forming a gate stack including a gate electrode on a first semiconductor fin. The gate electrode includes a portion over and aligned to a middle portion of the first semiconductor fin. A second semiconductor fin is on a side of the gate electrode, and does not extend to under the gate electrode. The first and the second semiconductor fins are spaced apart from, and parallel to, each other. An end portion of the first semiconductor fin and the second semiconductor fin are etched. An epitaxy is performed to form an epitaxy region, which includes a first portion extending into a first space left by the etched first end portion of the first semiconductor fin, and a second portion extending into a second space left by the etched second semiconductor fin. A first source/drain region is formed in the epitaxy region. | 07-11-2013 |
20130334615 | FinFETs and the Methods for Forming the Same - A method includes forming a gate stack including a gate electrode on a first semiconductor fin. The gate electrode includes a portion over and aligned to a middle portion of the first semiconductor fin. A second semiconductor fin is on a side of the gate electrode, and does not extend to under the gate electrode. The first and the second semiconductor fins are spaced apart from, and parallel to, each other. An end portion of the first semiconductor fin and the second semiconductor fin are etched. An epitaxy is performed to form an epitaxy region, which includes a first portion extending into a first space left by the etched first end portion of the first semiconductor fin, and a second portion extending into a second space left by the etched second semiconductor fin. A first source/drain region is formed in the epitaxy region. | 12-19-2013 |
20140239414 | FinFETs and the Methods for Forming the Same - A method includes providing a plurality of semiconductor fins parallel to each other, and includes two edge fins and a center fin between the two edge fins. A middle portion of each of the two edge fins is etched, and the center fin is not etched. A gate dielectric is formed on a top surface and sidewalls of the center fin. A gate electrode is formed over the gate dielectric. The end portions of the two edge fins and end portions of the center fin are recessed. An epitaxy is performed to form an epitaxy region, wherein an epitaxy material grown from spaces left by the end portions of the two edge fins are merged with an epitaxy material grown from a space left by the end portions of the center fin to form the epitaxy region. A source/drain region is formed in the epitaxy region. | 08-28-2014 |
20150021710 | Methods for Forming STI Regions in Integrated Circuits - A first Fin Field-Effect Transistor (FinFET) and a second FinFET are adjacent to each other. Each of the first FinFET and the second FinFET includes a semiconductor fin, a gate dielectric on sidewalls and a top surface of the semiconductor fin, and a gate electrode over the gate dielectric. The semiconductor fin of the first FinFET and the semiconductor fin of the second FinFET are aligned to a straight line. An isolation region is aligned to the straight line, wherein the isolation region includes a portion at a same level as the semiconductor fins of the first FinFET and the second FinFET. A continuous straight semiconductor strip is overlapped by the semiconductor fins of the first FinFET and the second FinFET. A Shallow Trench Isolation (STI) region is on a side of, and contacts, the semiconductor strip. The isolation region and the first STI region form a distinguishable interface. | 01-22-2015 |
20150087090 | MONITOR TEST KEY OF EPI PROFILE - A method and apparatus for estimating a height of an epitaxially grown semiconductor material in other semiconductor devices. The method includes epitaxially growing first, second, and third portions of semiconductor material on a first semiconductor device, measuring a height of the third portion of semiconductor material and a height of the first or second portion of semiconductor material, measuring a first saturation current through the first and second portions of semiconductor material, measuring a second saturation current through the first and third portions of semiconductor material, and preparing a model of the first saturation current relative to the height of the first or second portion of semiconductor material and the second saturation current relative to an average of the height of the first and third portions of semiconductor material. The model is used to estimate the height of an epitaxially grown semiconductor material in the other semiconductor devices. | 03-26-2015 |