Patent application number | Description | Published |
20130113520 | METHOD AND APPARATUS FOR IMPROVED MULTIPLEXING USING TRI-STATE INVERTER - A multiplexing circuit includes first and second tri-state inverters coupled to first and second data input nodes, respectively. The first and second tri-state inverters include first and second stacks of transistors, respectively, coupled between power supply and ground nodes. Each stack includes first and second PMOS transistors and first and second NMOS transistors. The first and second stacks include first and second dummy transistors, respectively. | 05-09-2013 |
20130146981 | ANTENNA CELL DESIGN TO PREVENT PLASMA INDUCED GATE DIELECTRIC DAMAGE IN SEMICONDUCTOR INTEGRATED CIRCUITS - An antenna cell for preventing plasma enhanced gate dielectric failures, is provided. The antenna cell design utilizes a polysilicon lead as a gate for a dummy transistor. The polysilicon lead may be one of a group of parallel, nested polysilicon lead. The dummy transistor includes the gate coupled to a substrate maintained at V | 06-13-2013 |
20140327050 | STANDARD CELL HAVING CELL HEIGHT BEING NON-INTEGRAL MULTIPLE OF NOMINAL MINIMUM PITCH - An integrated circuit, manufactured by a process having a nominal minimum pitch of metal lines, includes a plurality of metal lines and a plurality of standard cells under the plurality of metal lines. The plurality of metal lines extends along a first direction, and the plurality of metal lines are separated, in a second direction perpendicular to the first direction, by integral multiples of the nominal minimum pitch. At least one of the plurality of standard cells has a cell height along the second direction, and the cell height is a non-integral multiple of the nominal minimum pitch. | 11-06-2014 |
20140327081 | STANDARD CELL METAL STRUCTURE DIRECTLY OVER POLYSILICON STRUCTURE - A semiconductor structure includes a first active area structure, an isolation structure surrounding the first active area structure, a first polysilicon structure, a first metal structure, and a second metal structure. The first polysilicon structure is over the first active area structure. The first metal structure is directly over a first portion of the first active area structure. The second metal structure is directly over and in contact with a portion of the first polysilicon structure and in contact with the first metal structure. | 11-06-2014 |
20140327471 | STANDARD CELLS FOR PREDETERMINED FUNCTION HAVING DIFFERENT TYPES OF LAYOUT - An integrated circuit is manufactured by a predetermined manufacturing process having a nominal minimum pitch of metal lines. The integrated circuit includes a plurality of metal lines extending along a first direction and a plurality of standard cells under the plurality of metal lines. The plurality of metal lines is separated, in a second direction perpendicular to the first direction, by integral multiples of the nominal minimum pitch. The plurality of standard cells includes a first standard cell configured to perform a predetermined function and having a first layout and a second standard cell configured to perform the predetermined function and having a second layout different than the first layout. The first and second standard cells have a cell height (H) along the second direction, and the cell height being a non-integral multiple of the nominal minimum pitch. | 11-06-2014 |
20150031194 | METHOD FOR DESIGNING ANTENNA CELL THAT PREVENTS PLASMA INDUCED GATE DIELECTRIC DAMAGE IN SEMICONDUCTOR INTEGRATED CIRCUITS - An antenna cell for preventing plasma enhanced gate dielectric failures, is provided. The antenna cell design utilizes a polysilicon lead as a gate for a dummy transistor. The polysilicon lead may be one of a group of parallel, nested polysilicon lead. The dummy transistor includes the gate coupled to a substrate maintained at V | 01-29-2015 |
20150035070 | METHOD AND LAYOUT OF AN INTEGRATED CIRCUIT - An integrated circuit layout includes a first active region, a second active region, a first PODE (poly on OD edge), a second PODE, a first transistor and a second transistor. The first transistor, on the first active region, includes a gate electrode, a source region and a drain region. The second transistor, on the second active region, includes a gate electrode, a source region and a drain region. The first active region and the second active region are adjacent and electrically disconnected with each other. The first PODE and the second PODE are on respective adjacent edges of the first active region and the second active region. The source regions of the first and second transistor are adjacent with the first PODE and the second PODE respectively. The first PODE and the second PODE are sandwiched between source regions of the first transistor and the second transistor. | 02-05-2015 |
20150048424 | STANDARD CELL LAYOUT, SEMICONDUCTOR DEVICE HAVING ENGINEERING CHANGE ORDER (ECO) CELLS AND METHOD - A layout of a standard cell is stored on a non-transitory computer-readable medium and includes a first conductive pattern, a second conductive pattern, a plurality of active area patterns and a first central conductive pattern. The plurality of active area patterns is isolated from each other and arranged in a first row and a second row between the first and second conductive patterns. The first row is adjacent the first conductive pattern and includes a first active area pattern and a second active area pattern among the plurality of active area patterns. The second row is adjacent the second conductive pattern and includes a third active area pattern and a fourth active area pattern among the plurality of active area patterns. The first central conductive pattern is arranged between the first and second active area patterns. The first central conductive pattern overlaps the first conductive pattern. | 02-19-2015 |