Abstract: A controller controls an operating device. The operating device includes an operating member capable of being pushed by an operator, a biasing unit biasing the operating member in a return direction, a detecting unit configured to detect a distance of movement of the operating member and output a detection signal indicating the distance of movement, and a braking unit configured to brake movement of the operating member. In response to determining, based on the detection signal, that the operating member is pushed into a predetermined retracted position, the controller causes the braking unit to hold the operating member pushed. In response to determining, based on the detection signal, that the operating member is moved in the return direction because of a clearance in a drive transmission system between the operating member and the braking unit, the controller causes the braking unit to stop holding the operating member.

Abstract: A radiation emission device is provided. The radiation emission device may include a cathode configured to emit an electron beam and an anode configured to rotate on a shaft. The anode may be situated to receive the electron beam from the cathode. The radiation emission device may further include a rotor configured to drive the anode to rotate. The rotor may be mechanically connected to the shaft. The radiation emission device may further include a sleeve configured to support the shaft via at least one bearing. The cathode, the anode, and the rotor may be enclosed in an enclosure that is connected to the sleeve. At least a portion of the sleeve may reside outside the enclosure.

Abstract: The present embodiment relates to a camera module comprising: a first body including a lens; a second body coupled to the first body, and including a hole; and a shield cover disposed within the second body, wherein the shield cover is adhered to the second body, and a portion of a side plate of the shield cover is exposed by means of the hole of the second body.

Abstract: A graphene transistor includes a graphene layer including at least one sheet of graphene, a drain electrode and a source electrode each electrically connected to the graphene layer, a charge donor on at least one main surface of the graphene layer, the charge donor including an impurity charge, and a counter ion having a charge with a sign different from a sign of the impurity charge.

Abstract: An apparatus for manufacturing a single crystal by growing a single crystal according to a Czochralski method, the apparatus including: main chamber configured to house crucible configured to accommodate raw-material melt, and heater configured to heat raw-material melt; pulling chamber continuously provided at upper portion of main chamber and configured to accommodate single crystal grown and pulled; cooling cylinder extending from at least ceiling portion of main chamber toward raw-material melt so as to surround single crystal being pulled, cooling cylinder configured to be forcibly cooled with coolant; and auxiliary cooling cylinder fitted in an inside of cooling cylinder. Auxiliary cooling cylinder is made of any one or more materials of graphite, carbon composite, stainless steel, molybdenum, and tungsten. The auxiliary cooling cylinder has structure covering bottom surface of cooling cylinder facing raw-material melt. Gap between auxiliary cooling cylinder and bottom surface of cooling cylinder is 1.

Abstract: Provided is an electronic device for detecting lost portions of a field of vision and distorted portions of a field of vision and storing these in a vision map. The lost portions and distorted portions are identified in cooperation with the user by means of virtual image superposition on a real scene, audible requests to the user, gesture inputs provided by the user and gaze tracking. The electronic device may detect an object and provide visual information to a user when the object is in a lost portion or distorted portion of the field of vision.

Abstract: A display device includes a substrate including a display area and a peripheral area surrounding the display area, a plurality of pads in a first direction of the peripheral area of the substrate and in a second direction perpendicular to the first direction, and a circuit film on the pads. Each of the pads includes a signal line on the substrate, a first dummy pattern on the substrate and spaced apart from the signal line in the first direction, and a first insulating pattern between the signal line and the first dummy pattern on the substrate.

Abstract: This application provides a battery module and an assembly method for a battery module. The battery module includes batteries and a framework assembly. The framework assembly includes a first partition, two second partitions, and a securing clip. The first partition extends in a second direction. Each second partition extends in a first direction, and the two second partitions are located respectively on two sides of the first partition and form a cross-shaped structure together with the first partition. The securing clip fits with the two second partitions and secures the two second partitions to the first partition. The batteries are disposed on two sides of each second partition of the framework assembly in the second direction. The two second partitions of the framework assembly are secured to the first partition by using the securing clip, thereby improving the strength of connection between the second partitions and the first partition.

Abstract: The maximum capacity of a very fast memory in a system that requires very fast memory access times is increased by adding a memory with remote access times that are slower than required, and then moving infrequently accessed data from the memory with the very fast access times to the memory with the slow access times.

Abstract: A method for manufacturing a display device including providing a protection resin having a base resin, a first initiator, and a second initiator to the non-display area, irradiating light having a first wavelength region to the protection resin to form a preliminary protection layer, bending the flexible substrate so that the bending part has a first curvature radius, and additionally curing the preliminary protection layer to form a protection layer.

Abstract: A method of fabricating a semiconductor device is provided. The method includes: forming mask patterns on a substrate, the mask patterns including a first mask fin pattern, a second mask fin pattern and a dummy mask pattern between the first mask fin pattern and the second mask fin pattern; forming a first fin pattern, a second fin pattern and a dummy fin pattern by etching the substrate using the mask patterns; and removing the dummy fin pattern, wherein the dummy mask pattern is wider than each of the first mask fin pattern and the second mask fin pattern.

Abstract: A semiconductor device includes a first oxide insulating layer over a first insulating layer, an oxide semiconductor layer over the first oxide insulating layer, a source electrode layer and a drain electrode layer over the oxide semiconductor layer, a second insulating layer over the source electrode layer and the drain electrode layer, a second oxide insulating layer over the oxide semiconductor layer, a gate insulating layer over the second oxide insulating layer, a gate electrode layer over the gate insulating layer, and a third insulating layer over the second insulating layer, the second oxide insulating layer, the gate insulating layer, and the gate electrode layer. A side surface portion of the second insulating layer is in contact with the second oxide insulating layer. The gate electrode layer includes a first region and a second region. The first region has a width larger than that of the second region.

Abstract: There is provided a semiconductor device comprising a first semiconductor chip which includes a first chip substrate, and a first through via penetrating the first chip substrate, a second semiconductor chip disposed on the first semiconductor chip, and includes a second chip substrate, and a second through via penetrating the second chip substrate, and a connecting terminal disposed between the first semiconductor chip and the second semiconductor chip to electrically connect the first through via and the second through via. The semiconductor device further comprising an inter-chip molding material which includes a filling portion that fills between the first semiconductor chip and the second semiconductor chip and encloses the connecting terminal, an extension portion that extends along at least a part of a side surface of the second semiconductor chip, and a protruding portion protruding from the extension portion.

Abstract: The present invention relates to an integrated package structure. The integrated package structure includes a main substrate, a first module, a second module, a cavity element and a large-size device, wherein the main substrate includes a first surface of the main substrate and a second surface of the main substrate opposite to each other; the first module and the second module are stacked; the first module and the second module which are stacked, the cavity element and the large-size device are horizontally arranged on the first surface of the main substrate, and are respectively electrically connected to the main substrate. Owing to this arrangement, the demand of a current integrated package structure for a further high-density, miniaturized, multi-dimensional and multi-demand layout design can be met.

Abstract: An air duct conversion device comprises an air duct baffle installed on the air duct in a manner of capable of relatively rotating; an output shaft of a motor is connected with the air duct baffle through a linkage mechanism, to drive the air duct baffle to rotate around the shaft through the linkage mechanism in the rotating process of the output shaft of the motor, such that the air duct baffle switches to move between a first position and a second position. Through the above setting, under the driving of the linkage mechanism, the air duct baffle in the air duct correspondingly swings and rotates along with the rotation of the output shaft of the motor, to control the corresponding opening and closing of different openings in the air duct, to achieve the purpose of controlling the reversal of direction of the air flow in the air duct.

Abstract: A horizontal assembly press apparatus for performing a press-fit operation of a workpiece assembly along a horizontal axis includes a machine body unit, two moving units, two camera units, two pressing bed units and a processing unit. The machine body unit includes two main machine bodies defining an operating channel therebetween. The moving units are respectively and movably disposed on the main machine bodies. The camera units fetch images of the workpiece assembly entered the operating channel and output image signals. The pressing bed units are operated to press the workpiece assembly. The processing unit receives and analyzes the image signals, determines a target position of the horizontal axis, controls movement of the moving units to bring the pressing bed units to the target position, and controls movement of the pressing bed units to perform the press-fit operation of the workpiece assembly.

Abstract: The present disclosure provides a system for recovering and reusing graywater generated from at least one graywater source in a building. The system includes a controller configured to control recovery and reuse of the graywater; a graywater recovery device communicably coupled to the controller and configured to recover the graywater from the graywater source of the building; and a graywater distributor communicably coupled to the controller, connected to the graywater recovery device, and configured to distribute the recovered graywater to at least one target position in the building for reuse, wherein the controller controls the graywater recovery device to deliver the graywater to the graywater distributor according to a control signal sent by a user, and the controller controls the graywater distributor to deliver the graywater to a target position designated by the user for reuse according to a control signal sent by the user.

Abstract: A speech noise reduction processing method, an apparatus, a computer device and a storage medium. The method comprises: responsive to a distance between a speech collection device and a target object being detected to reach a preset value, acquiring a noisy speech signal collected by the speech collection device and performing frequency division processing on the noisy speech signal to obtain a low-frequency band signal; acquiring an amplitude spectrum and a phase spectrum of the low-frequency band signal; acquiring a modulation domain signal corresponding to the amplitude spectrum; performing spectral subtraction to obtain a noise-reduced modulation domain amplitude spectrum; compensating the modulation domain phase spectrum to obtain the compensated modulation domain phase spectrum; and obtaining a noise-reduced low-frequency band signal based on the compensated modulation domain phase spectrum, the noise-reduced modulation domain amplitude spectrum and the phase spectrum of the low-frequency band signal.

Abstract: A display device and a display method thereof are disclosed. The display method includes following steps: First, obtaining a target display frequency and a target backlight brightness value of a target display device. Then, obtaining a first display frequency and a first backlight brightness value of the target display device within a predetermined period. After that, confirming a backlight brightness compensation value of the target display device within the predetermined period according to a differential between the target display frequency and the first display frequency when the first display frequency and the target display frequency are different. Finally, compensating for the first backlight brightness value according to the backlight brightness compensation value.

Abstract: A method for providing automatic control of one or more devices in an environment including assessing information for the devices being paired with a hub or with a central server where the hub and the central server are configured to receive status messages from the devices and to issue commands to the devices; determining device-type handlers to use with the devices; installing the device-type handlers at the hub or the central server; installing an automation application on the hub or on the central server where the automation application responds to an event and issuing a command in response to the event; receiving a device-specific message from a source device at the hub or the central server; generating, using a device-type handler associated with the source device, a normalized event message; and providing the normalized event message to a processor in the hub or the central server.