Abstract: A system for achieving non-interruptive data reconstruction is disclosed. The system includes a source storage, a target storage, a server, a traffic modeling unit and at least one data moving service unit. With the help of traffic modeling unit, a period of time of low access can be estimated. Data reconstruction (copying or moving) can be carried on during the period of time. Thus, non-interruptive data reconstruction can be done.

Abstract: A touch sensing structure including a plastic substrate, a buffer layer, an electrode layer, an insulation unit, and a passivation layer is provided. The buffer layer is disposed on the plastic substrate, and the electrode layer includes a first patterned transparent electrode layer and a second patterned transparent electrode layer. The first patterned transparent electrode layer is disposed on the buffer layer, and the second patterned transparent electrode layer is disposed on the buffer layer. The insulation unit insulates the first patterned transparent electrode layer and the second patterned transparent electrode layer, and the passivation layer is disposed on the electrode layer. Twice a total optical path length of the electrode layer and the passivation layer along a direction substantially parallel to a normal direction of the plastic substrate ranges from 1000 nm to 2500 nm.

Abstract: A curved touch device is provided in the present invention including a back cover and a touch panel corresponding to the back cover, where at least one edge portion of the touch panel is a curve surface jointing with the one edge of the back cover.

Abstract: An environmental sensitive electronic device package including a first substrate, a second substrate, an environmental sensitive electronic device, a side wall barrier structure, a first adhesive, and a second adhesive is provided. The environmental sensitive electronic device is located on the first substrate. The first adhesive is located on the first substrate. The side wall barrier structure is located on the first adhesive, and the side wall barrier structure is adhered to the first substrate through the first adhesive. The second adhesive is located on the side wall barrier structure. The side wall barrier structure is adhered to the second substrate through the second adhesive, and the side wall barrier structure, the first adhesive, and the second adhesive are located between the first substrate and the second substrate. A manufacturing method of an environmental sensitive electronic device package is also provided.

Abstract: A system for achieving non-interruptive data reconstruction is disclosed. The system includes a source storage, a target storage, a server, a traffic modeling unit and at least one data moving service unit. With the help of traffic modeling unit, a period of time of low access can be estimated. Data reconstruction (copying or moving) can be carried on during the period of time. Thus, non-interruptive data reconstruction can be done.

Abstract: According to embodiments of the disclosure, a substrate structure, a method for manufacturing the substrate structure, and a method for manufacturing an electronic device are disclosed. The substrate structure includes a carrier, a de-bonding layer, and a flexible substrate. The carrier has a top surface. The de-bonding layer contacts the carrier, wherein there is a first adhesion force between the de-bonding layer and the carrier. The de-bonding layer is prepared from a composition, and the composition includes at least one acrylate-based monomer and at least one acrylate-based oligomer, wherein the sum of acrylate group of the acrylate-based monomer and the acrylate-based oligomer is greater than or equal to 3. The flexible substrate covers and contacts the de-bonding layer, wherein there is a second adhesion force between the de-bonding layer and the flexible substrate. The second adhesion force is greater than the first adhesion force.

Abstract: A touch sensing structure including a plastic substrate, a buffer layer, an electrode layer, an insulation unit, and a passivation layer is provided. The buffer layer is disposed on the plastic substrate, and the electrode layer includes a first patterned transparent electrode layer and a second patterned transparent electrode layer. The first patterned transparent electrode layer is disposed on the buffer layer, and the second patterned transparent electrode layer is disposed on the buffer layer. The insulation unit insulates the first patterned transparent electrode layer and the second patterned transparent electrode layer, and the passivation layer is disposed on the electrode layer. Twice a total optical path length of the electrode layer and the passivation layer along a direction substantially parallel to a normal direction of the plastic substrate ranges from 1000 nm to 2500 nm.

Abstract: A touch panel may include a substrate, a touch unit region and a covering layer. The touch unit region includes first electrode and a second electrode isolated from the first electrode. The covering layer covers at least one of the first electrode and the second electrode and has a touch surface. A distance between the touch surface and the first electrode or the second electrode ranges between 0.01 micrometers and 100 micrometers. A mutual capacitance value between the first electrode and the second electrode ranges between 0.1 pF and 10 pF when a touch has not occurred yet.

Abstract: A tactile feedback apparatus is disclosed. The tactile feedback apparatus includes at least one tactile feedback unit. The feedback tactile sense unit includes at least one feedback electrode, a dielectric layer and at least one reference electrode. A common reference potential is formed by a user's finger and the tactile feedback apparatus using the reference electrode. An electric filed is generated on the user's finger by the dielectric layer and the feedback electrode to provide a tactile feedback. Besides, the tactile feedback apparatus also provides a touch sensing function.

Abstract: A charging balancing system and method thereof based on a battery operating process and are disclosed. This is done by detecting a state of all cells in a detecting battery assembly to generate detection parameters, analyzing the detection parameters to produce an operating process, selecting at least one of residual power estimation methods according to the operating process, so as to calculate a residual power of each cell, and adjusting the charging current and charging time for each cell according to the residual power. As such, the efficiency of charging balancing is promoted.

Abstract: A charging balancing system and method thereof based on a battery operating process and are disclosed. This is done by detecting a state of all cells in a detecting battery assembly to generate detection parameters, analyzing the detection parameters to produce an operating process, selecting at least one of residual power estimation methods according to the operating process, so as to calculate a residual power of each cell, and adjusting the charging current and charging time for each cell according to the residual power. As such, the efficiency of charging balancing is promoted.

Abstract: A curved touch device is provided in the present invention including a back cover and a touch panel corresponding to the back cover, where at least one edge portion of the touch panel is a curve surface jointing with the one edge of the back cover.

Abstract: An environmental sensitive electronic device package including a first substrate, a second substrate, an environmental sensitive electronic device, a side wall barrier structure, a first adhesive, and a second adhesive is provided. The environmental sensitive electronic device is located on the first substrate. The first adhesive is located on the first substrate. The side wall barrier structure is located on the first adhesive, and the side wall barrier structure is adhered to the first substrate through the first adhesive. The second adhesive is located on the side wall barrier structure. The side wall barrier structure is adhered to the second substrate through the second adhesive, and the side wall barrier structure, the first adhesive, and the second adhesive are located between the first substrate and the second substrate. A manufacturing method of an environmental sensitive electronic device package is also provided.

Abstract: A residual battery capacity estimation system that adds two mutually perpendicular components and the method thereof are provided. The mechanism detects the battery voltage, current and temperature as the sensing parameters, and uses the preset electrical characteristic parameters and capacity change to look up a table for the battery dynamic internal resistance component. The mechanism uses the sensing parameters and the Coulomb counting method to calculate the component of the battery Coulomb counting charge. Afterwards, the battery dynamic internal resistance component and the battery Coulomb counting capacity component are then added to calculate the actual residual power of the battery. The mechanism achieves the goal of increasing the accuracy in estimating the battery residual power.

Abstract: A tactile feedback apparatus is disclosed. The tactile feedback apparatus includes at least one tactile feedback unit. The feedback tactile sense unit includes at least one feedback electrode, a dielectric layer and at least one reference electrode. A common reference potential is formed by a user's finger and the tactile feedback apparatus using the reference electrode. An electric filed is generated on the user's finger by the dielectric layer and the feedback electrode to provide a tactile feedback. Besides, the tactile feedback apparatus also provides a touch sensing function.

Abstract: A composite power supply includes a plurality of power cluster lines, at least one USB port and at least one DC port formed on a surface of a casing, and the power cluster lines, the USB port and the DC port are electrically connected to a circuit board and the circuit board includes a plug-and-play circuit electrically connected to the USB port and provided for an electronic device to access electric power through the USB port, so as to waive the inconvenience of booting a computer before using the electric power, and the circuit board includes a DC-DC conversion circuit electrically connected to the DC port, and a knob or a multi-stage switch in the DC-DC conversion circuit is provided for adjusting the output voltage of the power ports to improve the convenience of the application significantly.

Abstract: A battery device with a verification function, an anti-theft method and a packaging method thereof are disclosed. By detecting electrical characteristics of a battery, an enabling or disable signal is generated. When the enable signal is generated, a transmission unit is triggered for verification as well as obtaining a verification result. When the verification result fails, the self-discharge rate of the battery is increased. This mechanism helps improving the anti-theft function of the battery.

Abstract: A capacitor active balancing device with high-voltage differential and the method thereof are disclosed. A plurality of cells are connected in series for charging an energy storage unit under a high-voltage differential. The energy storage unit discharges cells of lower power to achieve battery balancing. The mechanism helps improve the efficiency of battery balancing.

Abstract: The present invention provides a power supply apparatus for an LED lamp, which mainly uses an isolation transformer to convert a high voltage AC input signal into a low voltage AC signal and thus generate a driving voltage for driving an LED lamp, comprising: a waveform and frequency modulation module disposed on the primary side of the isolation transformer for modulating an input waveform and a frequency f; and a secondary rectifier filter module disposed on the secondary side of the isolation transformer for converting the low voltage AC signal after passing through the isolation transformer into the driving voltage. In this way, the power supply apparatus for an LED lamp utilizes the principle of persistence of vision of human eyes to modulate the waveforms and frequencies of voltages for driving LEDs and can still maintain the normal operation.

Abstract: An organic thin film transistor is disclosed, which comprises an azole-metal complex compound used as the gate insulating layer. The method of making the self-assembled gate insulating layer is a water-based processing method that enables the azole-metal complex compound to be self-formed on the patterned gate electrode in a water-based solution and serves as a gate insulating layer. The organic thin film transistor (OTFT) of the present invention comprises the azole-metal complex compound used in the gate insulating layer, therefore can be manufactured in a simple, quick, easy way for large quantities, and low cost.