Abstract:
A semiconductor device includes an active fin on a substrate, a gate structure on the active fin, a gate spacer structure on a sidewall of the gate structure, and a source/drain layer on at least a portion of the active fin adjacent the gate spacer structure. The gate spacer structure includes a wet etch stop pattern, an oxygen-containing silicon pattern, and an outgassing prevention pattern sequentially stacked.
Abstract:
A semiconductor device includes an active fin on a substrate, a gate structure on the active fin, a gate spacer structure directly on a sidewall of the gate structure, and a source/drain layer on a portion of the active fin adjacent the gate spacer structure. The gate spacer structure includes a silicon oxycarbonitride (SiOCN) pattern and a silicon dioxide (SiO2) pattern sequentially stacked.
Abstract:
A semiconductor device includes a substrate including an active fin structure, a plurality of gate structures, a first spacer on sidewalls of each of the gate structures, and a second spacer on sidewalls of the first spacer. The active fin structure may extend in a first direction and including a plurality of active fins with adjacent active fins divided by a recess. Each of the plurality of gate structures may extend in a second direction crossing the first direction, and may cover the active fins. The first spacer may include silicon oxycarbonitride (SiOCN), and may have a first carbon concentration. The second spacer may include SiOCN and may have a second carbon concentration which is different from the first carbon concentration. The semiconductor device may have a low parasitic capacitance and good electrical characteristics.
Abstract:
A method and an apparatus perform Mobile High-definition Link (MHL) signal filtering. The method of performing the Mobile High-definition Link (MHL) signal filtering in a terminal includes determining whether a transmission device for MHL signal transmission is connected; determining whether a call continues when the transmission device is connected; and determining whether to perform the MHL signal filtering in the terminal based on whether the call continues. Accordingly, there is an advantage of improving picture quality of an image output from a multimedia device by effectively removing a common mode noise even when an RF weak electric field is formed due to call generation.