Abstract:
A semiconductor device comprises an active pattern on a substrate, a pair of first source/drain patterns on the active pattern, a pair of second source/drain patterns on top surfaces of the first source/drain patterns, a gate electrode extending across the active pattern and having sidewalls that face the first and second source/drain patterns, a first channel structure extending across the gate electrode and connecting the first source/drain patterns, and a second channel structure extending across the gate electrode and connecting the second source/drain patterns. The gate electrode includes a first lower part between a bottom surface of the first channel structure and a top surface of the active pattern, and a first upper part between a top surface of the first channel structure and a bottom surface of the second channel structure. The first lower part has a thickness greater than that of the first upper part.
Abstract:
A semiconductor device includes an active pattern on a substrate, a plurality of source/drain patterns in a first direction on the active pattern, a first channel structure between a pair of source/drain patterns, a second channel structure between another pair of source/drain patterns, a first gate electrode extending in a second direction perpendicular to the first direction, and a second gate electrode intersecting the second channel structure and extending in the second direction. The first gate electrode includes a first portion between a bottom surface of the first channel structure and a top surface of the active pattern, and the second gate electrode includes a first portion between a bottom surface of the second channel structure and the top surface of the active pattern. A thickness of the first portion of the second gate electrode is greater than a thickness of the first portion of the first gate electrode.
Abstract:
An air conditioning device includes an air purifier, a sensor, a communicator, and a processor. The sensor is configured to measure an air pollution level. The communicator comprises circuitry and configured to communicate with a server. The processor is configured to activate the sensor in a state where the air purifier is not driven, in response to receiving a first signal requesting an air pollution level state information from the server based on a location of a mobile terminal, transmit a second signal indicating that the air conditioning device needs to be driven to the server based on the air pollution level measured by the sensor, and drive the air purifier in response to a driving instruction received from the server.
Abstract:
A method and electronic device reproducing a multiple shutter sound that reproduces a same shutter sound or a series of different shutter sounds during the period where an image is being processed by transmitting two or more interrupts to a controller by an image signal processor and an electronic device thereof. The repetitive shutter sounds can indicate to a user that the image is still being processed, so that the user does not move the camera and affect the capture of the image. The method of reproducing a multiple shutter sound includes: receiving a command for shooting a photograph; processing an image in response to the command; and transmitting at least two interrupt to a controller such that the shutter sound is reproduced at least twice while processing the image.
Abstract:
An integrated circuit device may include a source/drain contact insulation layer on a lower structure, a source/drain contact via penetrating through the source/drain contact insulation layer, an interconnect wiring insulation layer on the source/drain contact insulation layer and including an interconnect wiring trench exposing a top surface of the source/drain contact via, a first interconnect wiring layer covering a lower portion of a sidewall of the interconnect wiring trench and including a first precursor, and a second interconnect wiring layer on the first interconnect wiring layer. The second interconnect wiring layer may cover an upper portion of a sidewall of the interconnect wiring trench and may include a second precursor. A crystal grain size of the second precursor may be larger than a crystal grain size of the first precursor.
Abstract:
An electronic device according to an embodiment may comprise a camera, a display, a memory configured to store instructions, and at least one processor. The at least one processor may be configured to, when the instructions are executed, cause the electronic device to receive a first input for enabling a designated setting. The at least one processor may be configured to, when the instructions are executed, cause the electronic device to, in response to the input, recognize, from a screen being displayed through the display, a first area occupied by a first external object and a second area occupied by a second external object, based on an image being obtained via the camera.
Abstract:
A semiconductor device including a semiconductor substrate having a recessed top portion and a non-recessed top portion, a first fin protruding upward from a non-recessed top portion with a first thickness, a second fin protruding upward from the recessed top portion with a second thickness greater than the first thickness, a first gate structure on the non-recessed top portion and surrounding the first fin to a first height from the non-recessed top portion, and a second gate structure on the recessed top portion and surrounding the second fin to a second height different from the first height from the recessed top portion may be provided.
Abstract:
An electronic device includes a housing including a front plate and a back plate opposite the front plate, a touchscreen display exposed through a portion of the front plate and including an organic light emitting diode (OLED), a fingerprint sensor interposed between the display and the back plate and overlapping the display when viewed above the front plate, and a processor operatively connected with the display and the fingerprint sensor.
Abstract:
A method for controlling a camera in a mobile device including a camera is provided. The method includes executing a first application related to the camera, turning the camera on in response to an execution of the first application, detecting a user's input related to a termination of the first application, determining whether the user's input is an Application (App) conversion event requesting an execution of a second application related to the camera, terminating the execution of the first application when the user's input is the App conversion event, and executing the second application, and terminating the execution of the first application when the user's input is not the App conversion event, and turning the camera off.
Abstract:
An electronic device according to various embodiments comprises: a display; a communication module including communication circuitry; a memory; and a processor operatively connected to the display, the communication module, and the memory, wherein the processor may be configured to: receive, through the communication module, first Internet-of-things (IoT) control information including device information regarding at least one external IoT device generated by an external user device and operation information configured for the at least one external IoT device; identify one or more IoT devices that can be connected on a local network through the electronic device determine based on the received first IoT control information a main device among the one or more identified IoT devices and operation information to be applied to the main device; and generate second IoT control information including device information regarding the main device and the operation information regarding the main device.