A semiconductor device is provided. The semiconductor device includes a substrate including an active pattern, a gate electrode extending in a first direction and crossing the active pattern which extends in a second direction, a separation structure crossing the active pattern and extending in the first direction, a first gate dielectric pattern disposed on a side surface of the gate electrode, a second gate dielectric pattern disposed on a side surface of the separation structure, and a gate capping pattern covering a top surface of the gate electrode. A level of a top surface of the separation structure is higher than a level of a top surface of the gate capping pattern.

An integrated circuit device includes a substrate including a fin active region extending in a first direction, a gate line intersecting the fin active region and extending in a second direction perpendicular to the first direction, a power line electrically connected to source/drain regions at sides of the gate line on the fin active region, a pair of dummy gate lines intersecting the fin active region and extending in the second direction, and a device separation structure electrically connected to the pair of dummy gate lines and including a lower dummy contact plug between the pair of dummy gate lines on the fin active region and electrically connected to the power line, and an upper dummy contact plug on the lower dummy contact plug and on the pair of dummy gate lines to electrically connect the lower dummy contact plug to the pair of dummy gate lines.

Provided is an integrated circuit (IC) device including a logic cell having an area defined by a cell boundary. The logic cell includes a first device region, a device isolation region, and a second device region. The first device region and the second device region are arranged apart from each other in a first direction that is perpendicular to a second direction. The device isolation region is between the first device region and the second device region. A first maximum length of the first device region in the second direction is less than a width of the cell boundary in the second direction, and a second maximum length of the second device region is substantially equal to the width of the cell boundary in the second direction.

Provided is an integrated circuit (IC) device including a logic cell having an area defined by a cell boundary. The logic cell includes a first device region, a device isolation region, and a second device region. The first device region and the second device region are arranged apart from each other in a first direction that is perpendicular to a second direction. The device isolation region is between the first device region and the second device region. A first maximum length of the first device region in the second direction is less than a width of the cell boundary in the second direction, and a second maximum length of the second device region is substantially equal to the width of the cell boundary in the second direction.

A semiconductor integrated circuit device includes a first power wiring that is formed on a semiconductor substrate and that extends in a first direction, a second power wiring that extends in the first direction such that the second power wiring is separated from the first power wiring, a first diffusion layer that is used for a p-channel type MOSFET and that is formed in a region between the first power wiring and the second power wiring, a second diffusion layer that is used for an n-channel type MOSFET and that is formed on a side of the second power wiring with respect to the first diffusion layer in the region between the first power wiring and the second power wiring, a first gate electrode that extends in a second direction perpendicular to the first direction and that straddles the first diffusion layer, a second gate electrode that extends in the second direction and that straddles the second diffusion layer, and a third diffusion layer for backgates that is formed below at least one of the first power wiring and the second power wiring and that is placed in a dotted manner along the first direction.

Provided is an integrated circuit (IC) device including a logic cell having an area defined by a cell boundary. The logic cell includes a first device region, a device isolation region, and a second device region. The first device region and the second device region are arranged apart from each other in a first direction that is perpendicular to a second direction. The device isolation region is between the first device region and the second device region. A first maximum length of the first device region in the second direction is less than a width of the cell boundary in the second direction, and a second maximum length of the second device region is substantially equal to the width of the cell boundary in the second direction.

A semiconductor device is provided. The semiconductor device includes first and second logic cells adjacent to each other on a substrate, and a mixed separation structure extending in a first direction between the first and second logic cells. Each logic cell includes first and second active fins that protrude from the substrate, the first and second active fins extending in a second direction intersecting the first direction and being spaced apart from each other in the first direction, and gate electrodes extending in the first direction and spanning the first and second active fins, and having a gate pitch. The mixed separation structure includes a first separation structure separating the first active fin of the first logic cell from the first active fin of the second logic cell; and a second separation structure on the first separation structure. A width of the first separation structure is greater than the gate pitch.

Semiconductor structures are provided. Each of the transistors includes a first source/drain region over a semiconductor fin extending in a first direction, a second source/drain region over the semiconductor fin, a channel region in the semiconductor fin and between the first and second source/drain regions, and a metal gate electrode formed on the channel region and extending in a second direction perpendicular to the first direction. In a first transistor of the transistors, a first source/drain region is formed between the metal gate electrode of the first transistor and the metal gate electrode of a second transistor of the transistors, A second source/drain region is formed between the metal gate electrode of the first transistor and the dielectric-base dummy gate extending in the second direction. A first contact of the first source/drain region is narrower than a second contact of the second source/drain region along the first direction.

A semiconductor device is provided. The semiconductor device includes first and second logic cells adjacent to each other on a substrate, and a mixed separation structure extending in a first direction between the first and second logic cells. Each logic cell includes first and second active fins that protrude from the substrate, the first and second active fins extending in a second direction intersecting the first direction and being spaced apart from each other in the first direction, and gate electrodes extending in the first direction and spanning the first and second active fins, and having a gate pitch. The mixed separation structure includes a first separation structure separating the first active fin of the first logic cell from the first active fin of the second logic cell; and a second separation structure on the first separation structure. A width of the first separation structure is greater than the gate pitch.

A semiconductor device is provided. The semiconductor device includes a substrate including an active pattern, a gate electrode extending in a first direction and crossing the active pattern which extends in a second direction, a separation structure crossing the active pattern and extending in the first direction, a first gate dielectric pattern disposed on a side surface of the gate electrode, a second gate dielectric pattern disposed on a side surface of the separation structure, and a gate capping pattern covering a top surface of the gate electrode. A level of a top surface of the separation structure is higher than a level of a top surface of the gate capping pattern.