Abstract: The present application provides a method for preparing silicon-carbon composite. The silicon-carbon composite prepared according to the present application is suitable to be an active material for negative electrode of lithium ion battery, which could not only ensure high capacity of silicon but also have good cycle performance and good charge and discharge performance. The present application also provides a negative electrode comprising a copper foil and a slurry including the mixture of a conductive agent, a binder, solvents and the silicon-carbon composite prepared according to the method for preparing silicon-carbon composite of the present application; and a lithium ion battery comprising a shell, a winding core positioned in the shell, electrolyte received in the shell and immersing the winding core, wherein the winding core comprising a positive electrode, separators and the negative electrode provided according to the present application.

Abstract: Disclosed is a display screen includes a display panel including a displaying material layer; a force detection layer formed on a light exiting side of the displaying material layer; an insulation layer formed on a side of the force detection layer that is distant from the displaying material layer; a force sensing layer formed on a side of the insulation layer that is distant from the force detection layer, where the force detection layer, the insulation layer, and the force sensing layer collectively form a detection capacitor, which is connected to a force control chip; and a touch panel formed on a side of the force sensing layer that is distant from the insulation layer. The display screen has high sensitivity for force detection. Also disclosed is a display device.

Abstract: An array substrate comprises the plurality of gate lines and matrix arranged touch electrodes, which each of the touch electrodes has a plurality of sub electrodes, and each of the sub electrode and the gate line extend along the first direction, the plurality of the sub electrode are arranged in spaced arrangement along the second direction. The first direction and the second direction are perpendicular each other, and the plurality of the sub electrodes electrically connected to each other by the first touch trace, and the shadow of the gate line on the touch electrode is between two of the sub electrodes. The touch electrode is separated into the plurality of sub electrode arranged in spaced arrangement. The shadow of the gate line on the touch electrode is between the two sub electrodes, and the touch electrode avoids the gate line.

Abstract: The present invention provides a touch panel, comprising a force sensing conductive layer, a separation layer and a fixed metal layer, and the separation layer is located between the force sensing conductive layer and the fixed metal layer, and a capacitance is formed between the force sensing conductive layer and the fixed metal layer, and the separation layer is filled with an elastic insulation material. The touch panel according to the present invention can prevent the touch function failure due to drop and collision. The present invention further provides a mobile terminal.

Abstract: The present invention provides a thin film transistor (TFT) array substrate which includes: a substrate; a display region formed on the substrate; a flexible printed circuit disposed on the substrate and located at one side of the display region; a control chip disposed between the display region and the flexible printed circuit, and two sides of the flexible printed circuit going beyond two corresponding sides of the control chip, respectively; a first reinforcement member disposed at a first side of the control chip, and the first side being adjacent to one side of the control chip that faces the display region; a second reinforcement member disposed at a second side of the control chip opposite to the first side; and a third reinforcement member covering the control chip, the first reinforcement member and the second reinforcement member.

Abstract: A bend inducing fiber array unit is provided comprising first and second anti-recovery plates and a V-groove chip. Opposing lateral anti-recovery plates are arranged on opposite sides of the first and second anti-recovery plates. Lateral edges on a common side of the anti-recovery plates are secured to a common face of one of the opposing lateral anti-recovery plates to fix the first and second anti-recovery plates relative to each other. A guided portion of the array of optical fibers is positioned in the fiber accommodating grooves of the V-groove chip and the V-groove chip is secured to the second anti-recovery plate such that the fiber accommodating grooves and a fiber guiding face of the first anti-recovery plate are fixed at a relative angle ? approximating the bend in the array of optical fibers.

Abstract: A design of optical testing device or system for fiber arrays is disclosed. According to one aspect of the invention, an array of light sources and an array of detectors are disclosed. One of the light sources is controlled to be turned on to test a designated fiber in an array of fibers being tested for connection issues. A microcontroller is configured to determine which one of the detectors is detecting a light beam from one of the light sources, and mark a channel of the array of fibers accordingly depending on if the one of the detectors is supposed to detect the light beam; if another one of the detectors detects the light beam; or if none of the detectors detects the light beam.

Abstract: A force touch liquid crystal display (LCD) includes: a touch panel configured to undertake a touch operation, a display module arranged on one side of the touch panel opposite to the touch panel, and a force film formed on a surface of the touch panel opposite to the display module. A method of fabricating the force touch LCD includes: forming a force film on one surface of a touch panel, and arranging the force film to face the display module, and attaching the touch panel to the display module. By using the force touch LCD, the problems that a force film is easily damaged because of backlight heat and force touch imbalance easily occurs are solved effectively and further the quality of force touch is well improved.

Abstract: The present invention discloses an array substrate, comprising a first flexible substrate, and the first flexible substrate comprises an integrally formed display region and a non display region around the display region, and a display circuit layer is formed on the display region, and a transmission circuit layer is formed on the non display region, and one end of the transmission circuit layer is electrically coupled to the display circuit layer, and the other end of the transmission circuit layer is employed to be electrically coupled to a control integration circuit. The electrical connection of the array substrate and the control integration circuit according to the present invention is reliable so that the liquid crystal panel utilizing the array substrate can normally display. The present invention further discloses a liquid crystal display panel and a manufacture method of a liquid crystal display panel.

Abstract: An array at least includes a substrate; a common electrode layer, an insulating layer and a sensing layer disposed thereon overlapped in sequence. The common electrode layer includes a plurality of sensors disposed separately. A touch control lead wire and a suspension lead wire are disposed on the sensing layer corresponding to each of the sensors. The touch control lead wires are connected to the sensors electrically through a first via hole. The suspension lead wire and the touch control lead wire are separated and disposed parallel, and the suspension lead wires are connected to the sensors electrically through a second via hole. Which can prevent the electric field generated by a data line below the sensors from fleeing to a liquid crystal layer above through regions between the sensors to drive rotation of liquid crystals and resulting in light leakage of the position as well as mura.

Abstract: The present invention presents a tunnel construction large-scale integrated geophysical advanced detection model test device. The model test device includes a tunnel surrounding rock, a main tunnel model, a model test case, a water-containing geological structure device, a numerical control automated construction device and a main control chamber. The model test device is a large-scale integrated geophysical advanced detection model test device meeting the detection using a seismic wave method, an electromagnetic method and a direct-current electric method.

Abstract: Disclosed is a touch display device which belongs to the technical field of displays, and solves the technical problem that the existing capacitive touch screens are thick. The touch display device comprises: a sub-pixel unit array, each of the sub-pixel unit being provided a thin film transistor and a pixel electrode therein, with a first insulating layer and a second insulating layer provided between the thin film transistor and the pixel electrode; and an array of common electrodes and a plurality of address lines located between the first insulating layer and the second insulating layer, each of the common electrodes being connected to a drive circuit through an address line respectively.

Abstract: Techniques for WDM Mux/DeMux on cable and methods of making the same are described According to one aspect of the present application, a unit designed to provide multiplexing or demultiplexing (Mux/Demux) functions is implemented on cable. In other words, the Mux/Demux unit is coupled by a multi-fiber cable to a system (e.g., a system rack for router or switch that has multiple pluggable transceiver slots).

Abstract: A large capacity lithium-ion-battery pack includes an dielectric housing having receiving barrels; single lithium ion batteries each received in a receiving barrel and comprises an anode currency collector and a cathode currency collector; a dielectric cover member assembled to the housing; and a conductive connecting assembly. The conductive connecting assembly includes a number of upper contact plates embedded in the cover member and a number of lower contact plates embedded in the housing. A part of each upper contact plate protrude out of the cover member for electrically contacting the anode currency collector or the cathode currency collector of a single lithium battery, a part of each lower contact plate protrude out of the housing for electrically contacting the anode currency collector or the cathode currency of a corresponding single lithium battery, all of the single lithium ion batteries are in a series-parallel connection state through the conductive connecting assembly.

Abstract: The micro-optical systems disclosed herein employ a glass tube having a body, a front end, a back end, an outer surface, and a bore that runs through the body between the front and back ends and that has a bore axis. The outer surface has a maximum outer dimension between 0.1 mm and 20 mm and includes at least one flat side. At least one optical element is inserted into and operably disposed and secured within the bore. The micro-optical assemblies are formed by securing one or more micro-optical systems to a substrate at the flat side of the glass tube. The glass tube is formed by a drawing process that allows for the dimensions of the glass tube to be small and formed with relatively high precision. An example of a compact WDM micro-optical assembly that employs micro-collimators is disclosed.

Abstract: Disclosed is a display device which belongs to the technical field of display, and is able to solve the technical problem of unequal resistances of leads in a fan-out conducting wire, thus reducing effects on display uniformity of a display panel.

Abstract: Disclosed is an array substrate and touch display device which belongs to the technical filed of display and is able to solve the technical problem that in the existing technologies, the process of manufacturing an array substrate is too complex. The array substrate includes a drive scan line, a data line, a first common electrode, a second common electrode, a touch scan line, a common transistor, and a touch transistor. The first common electrode and the second common electrode are arranged in a spaced-apart manner. A source and a drain of the common transistor are connected respectively to the first common electrode and the second common electrode, and a gate of the common transistor is connected to the drive scan line. A source and a drain of the touch transistor are connected respectively to the data line and the second common electrode, and a gate of the touch transistor is connected to the touch scan line.

Abstract: In various embodiments, free-space optical collimator and multi-channel wavelength division multiplexers including free-space optical collimators are provided. In one embodiment, for example, a free-space optical collimator includes a base having a length, a generally flat bottom surface and a top surface. A groove is disposed along the top surface of the base extending through the length of the base. A lens is disposed within the groove of the base and a fiber optic pigtail is disposed generally adjacent to a focal point of the lens. The lens and fiber optic pigtail are aligned within the groove to reduce an off-angle offset of an optical light signal propagating through the free-space optical collimator. In other embodiments, a process of producing a free-space optical collimator is also provided.

Abstract: Techniques for micro-optics alignment and assembly are described. By attaching a needle pin to an optical component to be assembled, the optical component can be placed and aligned within a limited space. After the aligned optical component is permanently bonded to a substrate or to another component, the needle pin is detached from the component. This technique allows a user to place and align a small optical component to a right position.

Abstract: Disclosed is an array substrate and touch display device which belongs to the technical field of display, and by means of which light leakage technical problem of the existing touch display devices can be solved. The array substrate comprises a sub-pixel unit array formed by a plurality of gate lines and a plurality of data lines, and further comprises a plurality of common electrodes. A gap is provided between two neighboring common electrodes. A shield line is provided at a location corresponding to the gap. When an image is displayed, the shield line has a same electric potential as the common electrode. The array substrate and touch display device provided by the present discourse can be used for mobile phones, tablet PCs, etc.